Table of Content

15 July 2004, Volume 15 Issue 7

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Image analysis and community monitoring on coniferous forest dynamics in Changbai Mountain

LIU Qijing, LI Xuanran, HU Lile

2004, (7):  1113-1120. 

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The structure and dynamics of coniferous forests in Changbai Mountain were studied at different spatial scales,including ground survey of permanent plots and analysis of multitemporal satellite images.Plot-scale examinations showed that the mortality rate was 7%～9%,and the recruitment rate was 18%～20% per 10 years.Species composition changed over time.Picea jezoensis var. microsperma,Abies nephrolepis and Betula ermanii presented a self-maintaining capability,because they could regenerate under canopy.Larix olgensis was a pioneer species and could regenerate only in open land or gaps.This species played an important role by providing conditions for the regeneration of spruce and fir.The tree density in the mature forest was 1 000 stems·hm^-2 for trees bigger than 3 cm in diameter,which showed no significant variations among different stands.Landsat TM images were used for detecting the cover changes from 1984 to 1997 Large scales of wind throw were detected by this approach.Based on the analysis of radiance changes at the landscape scale,the pixel number of the disturbed area was similar to that of the succeeding stands,suggesting that the forest was in a state of equilibrium.Fine gaps,however,were difficult to identify with the TM data because of its coarse resolution.The mosaic structure of the subalpine vegetation was characterized by scattered larch patches.At the landscape level,the vegetation was in a stable stage.

Effects of site condition on litterfall and related nutrient return in Pinus luchuensis plantations

WANG Qin, XU Xiaoniu, Eiji HIRATA

2004, (7):  1121-1125. 

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Over three years study on the dynamics of litterfall and related nutrient return in Pinus luchuensis plantations at different sites of northern Okinawa Island,Japan showed that the annual litterfall biomass ranged from 6.54 to 8.05 Mg穐m^-2穣r^-1,with a peak from June to July.Typhoons had a strong influence on the timing and mass of litterfall.There were significant differences in nutrient concentrations among the different components of litterfall.The annual total nutrient input from litterfall ranged from 113.4 to 154.6 kg穐m^-2穣r^-1,of which,N input was the greatest and contributed 42.2% of the total.The nutrient input was in order of N>Ca>K>Mg>Na>P.Due to the significantly different site conditions,there were significant differences in annual litterfall mass and related nutrient inputs between the two sampling stands.The annual mean litterfall mass of the sampling stand P1 on the lower slope reached 8.05 Mg穐m^-2穣r^-1,which was 23.1% greater than that of P2 on the upper slope.The annual mean nutrient inputs were N 66.04,P 1.63,K 17.42,Ca 48.31,Mg 14.65 and Na 6.57 kg穐m^-2穣r^-1,and were 39.7%,48.8%,39.4%,32.9%,24.8% and 49.3% higher in P1 than in P2,respectively.The nutrient use efficiency in litter production was higher in P2 (e.g.,N 138,P 5945 and K 523) than in P1 (e.g.,N 122,P 4934 and K 462),which should be attributed to the relatively lower fertility of soil in P2.The results from the study suggested that Pinus luchuensis plantation in Okinawa was a high efficiency system.

Gaps and their natural disturbance characteristics in mid-subtropical evergreen broad-leaved forest in Wanmulin

YAN Shujun, HONG Wei, WU Chengzhen, BI Xiaoli, Wang Xingong, FENG Lei

2004, (7):  1126-1130. 

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Through field investigation on 96 gaps in some permanent plots of mid-subtropical evergreen broad-leaved forest in Wanmulin Natural Reserve of Fujian Province,this paper dealt with the gap characteristics and their natural disturbance.The results showed that the area percentage of expanded gap (EG) and canopy gap (CG) in the forest landscape was 50.86% and 16.66%,and the natural disturbance frequency for EG and CG was 0.85%·yr^-1 and 0.28%·yr^-1,respectively.The return interval of canopy gaps was about 357 years.The most popular manner of gap formation in the forest was stem breakage (58.04% of the total),and the second was uprooting (33 48%).Most gaps were formed by two trees,averaging 2.33 trees per gap.The size of most expanded gaps was in the range of 100～300m²,the gaps of 200～300m² occupied the biggest percentage in area,and those of 100～200m² occupied the biggest percentage in number.The size of most canopy gaps was under 100m²,and the gaps of <50m² had the biggest percentage in area and number.The diameter at breast height of most gap makers was 20～30cm.

Relationships between light and physiological characters of five climbing plants

HUANG Chenglin, FU Songling, LIANG Shuyun, JI Yifan

2004, (7):  1131-1134. 

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Studies on the photosynthetic and respiratory rates,light utilization efficiencies and light compensations of five climbing plants showed that the diurnal variations of photosynthetic rates presented double peak,the first peak was between 10:00 to 12:00,and the second was between 14:00 to 16:00.The phenomenon of “noon break" was obvious.The diurnal variations of respiration rates also presented double peak,the first peak was between 11:00 to 13:00,and the second was between 14:00 to 17:00.The light compensation point of Hedera nepatensis,H.helix,Parthenocissus tricuspidata,P.quinuefolia and Wisteria sinensis was 5.73,5.07,9.96,6.40 and 18.93 μmol·m^-2·s^-1,respectively,and the light utilization efficiency of W.sinensis was higher under strong light,P.quinuefolia was the second,but that of H.helix was higher under weak light.The results showed that Wisteria sinensis was a typical heliophytic plant,Parthenocissus tricuspidata and P.quinuefolia were neuter plants,and Hedera nepalensis and H.helix were typical sciophytic plants.

Monthly changes in caloric values of five shrubby Palmae species leaves

TAN Zhongqi, LIN Yiming, DING Yinlong, LIAO Qiliao, LIN Peng

2004, (7):  1135-1138. 

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Studies on the monthly changes in the ash contents and caloric values of 5 shrubby Palmae species(Chamaerops humilis,Rhapis gracilis,Sabal minor,Chamaedorea cataractarum,Chamaedorea brachypoda)leaves showed that annual average ash content of the five shrubby species was 4.87%?1.37% for Chamaerops humilis,8.33%?0.89% for Rhapis gracilis,7.85%?2.64% for Sabal minor,9.20%?1.35% for Chamaedorea cataractarum,and 12.42%?1.78% for Chamaedorea brachypoda.The monthly changes of gross caloric value were different for Chamaerops humilis,Rhapis gracilis and Sabal minor,but similar to each other for Chamaedorea cataractarum and Chamaedorea brachypoda,and the annual average gross caloric value of the five shrubby species was 20.50?0.32 kJ穏^-1 for Chamaerops humilis,20.04?0.50 kJ穏^-1 for Rhapis gracilis,20.21?0.68 kJ穏^-1 for Sabal minor,20.52?0.48 kJ穏^-1 for Chamaedorea cataractarum and 18.90?0.47 kJ穏^-1 for Chamaedorea brachypoda.The gross caloric values were correlated remarkably with ash contents for Chamaedorea cataractarum and Sabal minor(P<0.05),but there was no significant correlation between gross caloric values and ash contents for other three species(P>0.05).Rhapis gracilis and Sabal minor,and Chamaedorea cataractarum and Chamaedorea brachypoda had similar monthly changes in ash free caloric values,respectively.The average ash free caloric value of the five shrubby species was 21.55?0.53 kJ穏^-1 for Chamaerops humilis,21.87?0.46 kJ穏^-1 for Rhapis gracilis,21.84?0.53 kJ穏^-1 for Sabal minor,22.60?0.81 kJ穏^-1 for Chamaedorea cataractarum,and 21.59?0.63 kJ穏^-1 for Chamaedorea brachypoda.Chamaedorea cataractarum had a higher ash free caloric value than other four species (P<0.05),and the ash free caloric values of Chamaerops humilis,Rhapis gracilis,Sabal minor and Chamaedorea brachypoda were similar,the differences being not significant by t test(P>0.05).

Genetic diversity of rare and endangered plant Magnolia amoena

LIU Dengyi, CHU Ling, YANG Yuehong

2004, (7):  1139-1142. 

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The genetic variations within and between eleven natural populations and one cultured population of Magnolia amoena from different distribution regions were investigated at the DNA level by employing RAPD.Out of 40 random primers,fourteen random primers were screened which could generate highly reproducible and clear RAPD fragments for further population analysis.With these primers,a total of 94 discernible DNA fragments were obtained and 23(24.4%) were polymorphic,which indicated that low levels of genetic variation existed in the investigated populations.In addition,UPGMA map were made according to the genetic similarity and distance of the twelve populations calculated in this article.The result showed that the genetic diversity between individuals within population was lower than that between populations.The individual genetic differentiation might be relation to their geographic distribution.The low total genetic diversity of Magnolia amoena was one reason for its endangerment.

Effects of meteorological factors and mineral elements on the content of resveratrol in Polygonum cuspidatum rootstalk

CAO Yong, ZHANG Min, YU Huazhong, LI Guozhang, DU Yatian, XIAO Langtao

2004, (7):  1143-1147. 

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By determining monthly the content of resveratrol and eight mineral elements (Ca,Cu,Fe,K,Mg,Na,Zn,Mn) in the rootstalk of Polygonum cuspidatum,by considering the dynamic meteorological factors and by analyzing the principal components,we are investigating the dynamic relationship laws among mineral elements,meteorological factors and the content of resveratrol in Polygonum cuspidatum rootstalk in varied seasons.The results indicated that the correlation coefficient between Cu and Fe;between Mg and K;between Mg and Zn;between K and Zn;between Ca and average sunlight hours per month are 0.812,0.871,0.793,0.729,0.602.Their correlation is markedly in the positive 0.01 levels.The correlation coefficient between Cu and average air temperature in a month;between Mn and average air temperature in a month;between Fe and K are -0.738,-0.712, -0 766.Their correlation is markedly in negative 0.01 levels.The correlation between Cu and the content of resveratrol is markedly in negative 0.05 levels.Of the five principal factors affecting the content of resveratrol,two were found to be principal:“mineral element factors of promoting enzyme reacts" and “the meteorological factors of high temperature and strong shines".The percentage results of these two principal are 33 539% and 33.358%,making a total of 68.897%.The two factors above are also the main reasons for the variation of Polygonum cuspidatum resveratrol.A regression equation was set up through correlation and regression analysis between the changing content of resveratrol and the principal component.

Soil water characteristics in Picea crassifolia forestry lands in Qilian Mountains

DANG Hongzhong, ZHAO Yusen, CHEN Xiangwei, LI Jinjun, DA Guangwen, ZHU Youwen

2004, (7):  1148-1152. 

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The study of soil water content and its main affecting factors in Picea crassifolia forestry lands in Qilian Mountains showed that the Picea crassifolia forestry lands were characterized by lower soil bulk weight and higher soil water infiltration rate,and the vertical distribution of soil water was apparently affected by precipitation.The soil bulk weight of shrub-Picea crassifolia forestry land,moss-Picea crassifolia forestry land and meadow land was 0.522,0.641 and 0.874 g·cm^-3,initial water infiltration rate was 6.0,21.0 and 2.5 mm·min^-1,and stable infiltration rate was 3.98,11.2 and 0.5 mm·min^-1,respectively.The soil of moss-Picea crassifolia land in 100 cm depth could be partitioned into 4 layers,i.e.,active layer(0～30 cm),regulation layer(30～60 cm),transmission layer(60～80 cm) and accumulation layer(below 80 cm),and the amount of stored water in each layer was 3.30,3.17,2.80 and 2.83 mm·cm^-1,respectively.The soil of shrub-Picea crassifolia land could be partitioned into 3 layers,i.e.,stable layer(0～30 cm),active layer(30～60 cm)and transmission layer(below 60 cm),and the amount of stored water in each layer was 3.98,3.65 and 3.48 mm·cm^-1,respectively.The seasonal variance of soil water content in Picea crassifolia forestry lands was strongly affected by precipitation.The water holding capacity of shrub-Picea crassifolia forestry land was higher and the water transmission capability was lower than that of Moss-Picea crassifolia forestry land.

Comprehensive evaluation and selection of urban eco-engineering virescent trees in Shenyang City

LU Min, JIANG Fengqi, LI Yingjie

2004, (7):  1153-1156. 

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Urban virescence eco-engineering is the core of urban eco-environmental construction,which can promote urban sustainable development.In urban virescence eco-engineering,the comprehensive evaluation of ecological adaptability and ecological effect of urban plants is the scientific basis of rational application and selection of urban garden plants.The ecological effect and integrative functions of urban virescence eco-engineering depend upon the selection and layout of garden plants.Using the methods of garden expert consultation and evaluation,this paper established systematically integrative evaluation and application indices of virescence plants in Shenyang City,from the aspects of ecological adaptability,ecological effect,beautification effect,resistance to plant diseases and insect pests,anti-pollution and economic results.According to garden experts evaluation and location of Shenyang,200 sorts of virescence trees were evaluated and classified on the basis of the comprehensive evaluation system of virescence trees,and using cold resistance,drought resistance,barren resistance,plant diseases and insect pests resistance,anti-pollution,ornamental quality and ecological effects as the indexes.The results showed that the number of first rank trees was 58,the second was 93,the third was 38,and the fourth was 11,ranked by integrative performance.

Vegetation diversity of wild Chinese alligator(Alligator sinensis) habitats

ZHOU Shoubiao, QIN Weihua, JIANG Hongxin, WU Xiaobing, WU Lusheng, WANG Hengying, SHAO Min

2004, (7):  1157-1160. 

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In June and July of 2003,a field survey on the vegetation of 22 Chinese alligator habitats distributed in Nanling county,Jingxian county,Guangde county,Langxi county and Xuancheng city of Anhui province was conducted,and the plant species of the habitats were recorded and analyzed.The results showed that the vegetation of the whole habitats was secondary,and there were 294 species vascular plants,belonging to 92 families.Pteioblastus amarus shrubbery could be found in all sites,and part differences of the vegetation consisted in different habitats.The relationship between Chinese alligator and habitat vegetation was also analyzed.All of these could offer some basic botanical data for the further protection of the Chinese alligator.

On the causes of mite pest outbreaks in mono- and poly-cultured moso bamboo forests

ZHANG Yanxuan, ZHANG Zhiqiang, Yutaka Saito, LIU Qiaoyu, JI Jie

2004, (7):  1161-1165. 

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In this paper,the damage of phytophagous mites Schizotetranychus nanjingensis Ma & Yuan,Aponychus corpuzae Rimando and Aculus bambusae Kuang to moso bamboo (Phyllostaychs pubescens) was examined for ten pairs of mono- and poly-cultured forests at six locations in Fujian,China.The results showed that the mite damage in mono-cultured forests (35%) was twice as high as that in poly-cultured forests (17.5%<the injury level of 20%),and the difference was significant by t-test.The total pest mites in the mono-cultured forests at six locations in Fujian were 289.29% as high as those in the poly-cultured stands.Typhlodromus bambusae,a nature enemy in the poly-cultured forests at five locations in Fujian,was 262.5% as high as that in the mono-cultured forests.The proportion of pest mite and nature enemy in the mono-cultured forests was 1:118,but was 1:13 in the poly-cultured forests.The change of bamboo cultivation (mono-culture,crowding of bamboo plants,and removal of underfloor plants) might be the major cause of mite pest outbreaks in moso bamboo forests.

Krigle estimation and its simulated sampling of Chilo suppressalis population density

YUAN Zheming, Bai Lianyang, Wang Kuiwu, Hu Xiangyue

2004, (7):  1166-1170. 

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In order to draw up a rational sampling plan for the larvae population of Chilo suppressalis,an original population and its two derivative populations,random population and sequence population,were sampled and compared with random sampling,gap-range-random sampling,and a new systematic sampling integrated Krigle interpolation and random original position.As for the original population whose distribution was up to aggregative and dependence range in line direction was 115 cm (6.9 units),gap-range-random sampling in line direction was more precise than random sampling.Distinguishing the population pattern correctly is the key to get a better precision.Gap-range-random sampling and random sampling are fit for aggregated population and random population,respectively,but both of them are difficult to apply in practice.Therefore,a new systematic sampling named as Krigle sample (n=441) was developed to estimate the density of partial sample (partial estimation,n=441) and population (overall estimation,N=1500).As for original population,the estimated precision of Krigle sample to partial sample and population was better than that of investigation sample.With the increase of the aggregation intensity of population,Krigel sample was more effective than investigation sample in both partial estimation and overall estimation in the appropriate sampling gap according to the dependence range.

Bioactivity of Myoporum bontioides extracts to Plutella xylostella

GU Wenxiang, HE Yanbiao, HE Tingyu, PANG Xiongfei, XIAN Jidong

2004, (7):  1171-1173. 

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The bioactivity of Myopdrum bontioides extracts to Plutella xylostella was studied with IIPC as evaluated index.The results showed that petroleum ether and chloroform extracts had a higher activity than ethyl acetate and alcohol extracts.At 0.01gDW·ml^-1,the ODR of petroleum ether and chloroform extracts was 84.69% and 79 90%,and 76.47% and 45.70% after treated 1d and 3d,while the IIPC was 0.1565 and 0.2055,respectively.Provided with a higher concentration of 0.05 gDW·ml^-1,the ODR was 88.52% and 72.25%,and 87 33%,58.37%,while the IIPC was 0.1125 and 0.2620,respectively.From the chloroform extract of Myopdrum Bontioides,three flavonoids,2,3-dihydro-5,7-dihydroxy-2-phenyl-4H-1-Benzopyran-4-one(Ⅰ),3,5,7-trihydroxy-2-phenyl-4H-1-Benzopyran-4-one(Ⅱ)and 5,7-dihydroxy-3-methoxy-2-(4-methoxyphenyl)-4H-1-Benzopyran-4-one(Ⅲ),were isolated,and their structure were identified based on the analyses of physical and spectrum data.Among these compounds,(Ⅱ)had a better bioactivity to Plutella xylostella.

Interaction between chlopyrifos and microorganisms in soils

LIU Xin, YOU Minsheng, LIAO Jinying, WEI Yingzhi

2004, (7):  1174-1176. 

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The experimental results showed that in sterilized soils,the degradation rate of 50 mg穔g^-1,500 mg穔g^-1 and 5 000 g穔g^-1 chlopyrifos was very slow (only 20% after 60 d),and in soils which previously treated with chlopyrifos,the degradation rate of 50 mg穔g^-1,500 mg穔g^-1 and 5 000 mg穔g^-1 chlopyrifos was 100%,90% and 80%,respectively.However,in un-sterilized and untreated soils,the degradation rate was at the medium of the rates mentioned-above,indicating that soil microorganisms played an important role in chlopyrifos degradation,and using chlopyrifos could induce the chlopyrifos degrading ability of soil microorganisms.Compared to the soils untreated with chlopyrifos,the soils treated with 50 mg穔g^-1 and 500 mg穔g^-1 chlopyrifos had somewhat increased bacteria and fungi during a short period of treatment,which recovered to normal level after 60 days.But,when treated with 5 000 mg穔g^-1 chlopyrifos,the bacteria and fungi were inhibited,and couldn't recover after 60 days.Under the same treatment condition,the number of bacteria and fungi was not different between soils previously treated and untreated with chlopyrifos,which indicated that enhanced degradation of chlopyrifos was not decided by the numbers of bacteria and fungi,but by their ability of enhanced degradation.

Effect of tillage system on soil animal,microorganism and enzyme activity in paddy field

GAO Ming, ZHOU Baotong, WEI Chaofu, XIE Deti, ZHANG Lei

2004, (7):  1177-1181. 

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A long-term experiment showed that under ridge-no-tillage,the amount of soil animal in 0～20 cm layer was 14 700 ind.·m^-2,while under no-tillage and fallow in winter,paddy-upland rotation,and conventional tillage,it was 10 450,7 950 and 6 275 ind.·m^-2,respectively.Soil microbial biomass and microbial biomass N were more in spring and autumn,and less in summer.Soil enzyme activity was higher in surface soil layer and lower in bottom soil layer.The amount of soil animal,microbial biomass and microbial biomass N and soil enzyme activity was in order of ridge-no-tillage>paddy-upland rotation>no-tillage and fallow in winter>conventional tillage.The results also indicated that ridge-no-tillage was advantageous to improve soil ecological environment and soil fertility in paddy field.

Dynamics of three kinds of nitrogen in surface water of rice field with an independent irrigation system

WANG Qiang, YANG Jingping, CHEN Jun, SHI Hongxing, XU Chunfen

2004, (7):  1182-1186. 

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Studies on the dynamics of NH₄⁺,NH₃^- and TN concentrations in the surface water of paddy field with an independent irrigation system showed that the concentration of NH₄⁺ and TN in surface water was increased to the maximum after 1day of each urea application,and then decreased rapidly with time.The ratio of NH₄⁺/TN,NH₃^-/TN and(NH₄⁺+NH₃^-)/TN was increased firstly,and then decreased. NH₄⁺ and TN could be used as the main indexes for the water pollution of the paddy field,and NH₃^- used as the assistant one.There existed a positive relation between the concentration of these three kinds of nitrogen and N application amount.Nine days after urea application was the key time to prevent the gross loss of the three kinds of nitrogen in the water surface of the paddy field.The simulation expressions of NH₄⁺ and TN with time factor could be exponential,logarithmic,power or binomial,while NH₃^- had no appropriate expression.The simulation with factors of time and N application amount showed that the simulation expressions of NH₄⁺ and TN were the same.

Extensive grazing and designed feeding with supplemented legume forages on natural grassland

ZHOU Daowei, LIN Jiaqiao, QIN Menglin

2004, (7):  1187-1193. 

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Livestock needs to be fully stuffed and fed well.Eating-well can compensate eating-full,and can rapidly increase the body weight of livestock,shorten its feeding period,enhance its production,and protect natural grassland from overgrazing. A designed feeding based on extensive grazing on natural grassland by supplementing rich crude protein-contained forage might be a new trend for optimizing the animal husbandry on grassland.Adding 20% legume forages to the diets for wethers could make the live body weight get a 40%～65% increase,achieving 52～61 kg in October extending to December. Forage production,animal nutrition and animal production were the three relatively primary factors for grassland management while focusing on grazing.Some terms such as eating-well,eating-well degree,eating-full,eating-full degree,extensive grazing and designed feeding were also defined respectively in this paper.

Influence of male surgical sterilization on social behavior of brandt's vole

ZHANG Jianjun, ZHANG Zhibin

2004, (7):  1194-1196. 

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Using the method of surgical sterilization,this paper studied the influence of sterilized male on the social behavior of Brandt's vole.The results showed that there was no significant difference in the frequency of amicable and agnostic behaviors between male surgical sterilization group and control,and between intact and sterilized males in the same group.It could be concluded that male surgical sterilization had no influence on the social behavior of Brandt's vole.

Dynamics of ecological landscape pattern and its affecting factors in desert-oasis in Fukang,Xinjiang

LIU Xinchun, ZHANG Yuandong, REN Guangyao, PAN Xiaoling, HE Qing

2004, (7):  1197-1202. 

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The spatial pattern of ecological landscape during land utilization in Fukang is heavily influenced by natural difference and the scale of water and land resource development.Analyses on the spatial pattern based on different zones and indexes showed that from 1987 to 1998,the change of the spatial pattern of ecological landscape during land utilization in Fukang was mainly the increase of plantation area in pluvial fan and the decrease in alluvial plain.The case was on the contrary about badlands.The acreage of woodland decreased in lower mountains,uplands and alluvial plain,but no variety in alluvial plain.The acreage of grassland increased in lower mountains and uplands,while decreased in other fields.The acreage of town increased in each sample field,while that of water area remained uncharged.The landscape diversity and evenness was descending,the dominance was ascending in lower mountains and in pluvial fan,while it was reverse in alluvial plain.Accessorial fragmentation showed the increasing influence of human beings.The change of the spatial pattern of ecological landscape in Fukang focused on the acreage alteration of plantation and badlands in pluvial fan and alluvial plain. The key factor was the dynamic variation of water-salt in water and soil resource utilization.Terrain and land utilization were the key factors affecting water table,and the continuous changes of the water table worked on the spatial distribution of soil water-salt.

Dynamic modeling of potato phenological development

HUANG Chongping, ZHANG Fang, WANG Aihua, HU Bingmin, YANG Jingping

2004, (7):  1203-1206. 

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By means of systematic demonstration,this study found the mathematical relationship among several temperature driven nonlinear models for crop growth,and amended the limitation of the past nonlinear model in biological usage and the improved model with more general definition.Integrated with four years' field experimental data and Gauss function based temperature effectiveness model submitted in this study,the phenological development model for potato crop was established under different ecological conditions.The phenological development model explained the digital contribution of soil temperature increment on potato growth,and verified by the experimental data from different years and different conditions.There were strict co-relationships between modeling data and experimental data.

Growth and photosynthetic characteristics of field-grown Coffea arabica under different watering and fertilization managements

CAI Chuantao, CAI Zhiquan, XIE Jiwu, ZHOU Qinghui, CAO Kunfang, YAO Tianquan, WANG Hua

2004, (7):  1207-1212. 

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Straw mulching and drip irrigation have been widely used for coffee production.In order to know if these techniques are suitable in Yunnan,five-year-old coffee plants were separated into 8 groups to grow in the field under 2 fertilization rates (low and high) and 4 watering regimes:dry straw mulching (M),drip irrigation (I),drip irrigation + straw mulching (MI) and control treatment (CK),and the effects of various watering and fertilization treatments on the growth and photosynthetic characteristics of Coffea arabica with the density of 4500 individuals per hectare were measured.The results showed that during one year's growth period,the coffee plants had two growth peaks,one was in May when the rainy season just begun,and the another was in August to September,the middle of rainy season.Higher fertilization promoted the relative height and length growth rates of the branches,but watering treatments hadn't significant effects on them.In dry season,watering significantly promoted the Pn,g s,Tr and WUE,while water status had no significant influence on the internal fluorescence features of PSII.In wet season,high-fertilized plants had a higher leaf nitrogen content and Pn than low-fertilized plants,and Pn was positively correlated with leaf nitrogen content.In both seasons,higher fertilization increased the WUE regardless of the watering treatments.At the same time,the high-fertilization treatment significantly alleviated diurnal photoinhibition,companying with a higher energy utilization through photochemistry and a higher energy dissipation through xanthophyll cycle,which appears that high-fertilized coffee plants have the mechanism to acclimate to strong light environment.All the results indicated that wet season is the optimum time for the photosynthesis and growth of C.arabica,and C.arabica needs a high fertilization investment and fine watering managements during its whole growth period.Among the three man-made watering treatments,MI was the best,M and I had the nearly same effects but the former was more practical than the latter.

Desiccation and nitrate accumulation of apple orchard soil on the Weibei dryland

FAN Jun, SHAO Mingan, HAO Mingde, WANG Quanjiu

2004, (7):  1213-1216. 

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The study of apple orchard soil on the Weibei dryland showed that high input and high yield not only resulted in soil desiccation,but also induced nitrate accumulation in the soil profile.Generally,the soil layers with accumulated nitrate located in 40～260 cm depths,and the maximum nitrate content was 403.4 mg·kg^-1.Owing to the continuous application of nitrogen fertilizer,the accumulated nitrate could hardly be reused in the future,which might lead to environmental pollution.Because the soil storage water could not adjust the water utilization of apple trees,the yield of orchard was affected by precipitation.Therefore,the nitrogen application rate should be reduced,and actions should be taken to improve soil moisture in apple orchard.

Response of rice grain quality traits to free-air CO₂ enrichment

DONG Guichun, WANG Yulong, HUANG Jianye, YANG Hongjian, GU Hui, PENG Bin, JU Jing, YANG Lianxin, ZHU Jianguo, SHAN Yuhua

2004, (7):  1217-1222. 

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The study showed that under field condition,when the CO₂ concentration was elevated 200 μmol·mol^-1 above control,the average brown rice rate of japonica variety Wuxiangjing 14 was 1.4% higher,while lead milled rice rate was 12.3% lower than control.The brown rice rate increased at lower nitrogen supply level(LN),while lead milled rice rate increased at higher nitrogen supply level(HN).The percentage of chalky grain was 11.9% higher,and chalkiness degree was 2.8% higher than control,but no obvious difference was found in chalkiness area between the FACE and the control.The chalkiness area,percentage of chalky grain and chalkiness degree decreased at HN plus higher phosphorus supply level(HP).The gelatinization temperature was elevated 0.52℃,gel consistency increased,while amylose content was not statistically significant.The amylose content decreased at HN plus HP,while gel consistency and gelatinization temperature decreased at LN plus HP and at LN,respectively.The protein content was decreased 0.6% under FACE treatment and at LN plus lower phosphorus supply level.

Changes of polyamines level in Glycine soja and Glycine max seedlings under NaCl stress

YU Bingjun, JI Xiaojia, LIU Jun, LIU Youliang

2004, (7):  1223-1226. 

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With internationally common-used Glycine max (the salt-tolerant Lee68) and Glycine soja (the salt-sensitive N23232) as reference,this paper studied the polyamines (PAs) contents and polyamine oxidase (PAO) activities in the highly salt-tolerant BB52 (Glycine soja) seedlings,which showed that under 150mmol稬^-1 NaCl stress for 2d,the decrease of Put and Spd contents was more significant,but that of Spd content was less significant in roots of BB52 than in those of Lee68 and N23232.For leaves,the decrease of Put and increase of Spd contents were markedly observed in BB52.The ascent of (Spm+Spd)/Put ratios and descent of Put/PAs ratios showed a positive relation to their salt tolerance.The PAO activity in roots and leaves was all increased,and most obvious in N23232.The relationship between PAs levels in BB52 and its salt tolerance was also discussed.

Effect of fertilization on cucumber growth and soil biological characteristics in sunlight greenhouse

XU Fuli, LIANG Yinli, ZHANG Chenge, DU Sheni, CHEN Zhijie

2004, (7):  1227-1230. 

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This paper studied the effect of fertilization on cucumber growth and yield,soil microbial biomass and soil enzyme activities in sunlight greenhouse in Loess Plateau.The results indicated that the growth and yield of cucumber were increased with application of manure and methane.Foliage application reduced the application rate of NP and manure.Fertilization had an obvious effect on the biological characteristics of soil in sunlight greenhouse.The number of bacteria was increased by manure and foliage fertilization,and that of fungi was increased by NP and methane fertilization but decreased by manure fertilization.Fertilization with manure,NP and methane also remarkably increased the number of actinomyces and the activities of urease,phosphatase and sucrase in soil.The activities of soil urease and phosphatase were increased by fertilization of manure,but little effect was found with fertilization of NP and methane.

Effect of straw return to field and fertilization in autumn on dryland corn growth and on water and fertilizer efficiency

ZHOU Huaiping, YANG Zhiping, LI Hongmei, GUAN Chunlin

2004, (7):  1231-1235. 

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A ten years location experiment of various kinds straw return to field and deep fertilization in autumn was conducted in Shouyang dryland experimental area of Shanxi Province to study their effect on the growth and yield of dryland corn,the use efficency of soil water and fertilizer,and the changes of soil fertility.The results showed that this kind of experimental method could better solve the contradiction of deep fertilization with maintaining soil moisture and keeping a full stand of seedlings in spring,and the competition of water and fertilizer between the degradation of crop remains and the seedlings.What is more,the abundant resources of crop remains were used more sufficiently,the activity of soil microorganisms was more active,and soil fertility was obviously improved,which was proved by the complete and strong seedlings and developed roots,the photosynthesis and transpiration rates were enhanced,the water use efficiency(WUE)was increased by 3.26～3.51 kg·hm^-2·mm^-1,and the accumulated water consumption was decreased by 8.1～264.5 mm.During plant growth period,the utilization rate of fertilizer N and P could increase 3.9%～13.9% and 3.0%～9.1%,respectively,and the use efficiency of water and fertilizer was higher.The ten years accumulated yield increased 12.10～17.27 t·hm^-2,a rise of 25.6%～36.5%,and in the meantime,higher soil fertility and productivity were maintained.

Biological availability of zinc lignosulfonate on calcareous soil of north Guangdong Province

WANG Dehan, LIN Huidong, PENG Junjie, XIAO Xiongshi, LIAO Zongwen

2004, (7):  1236-1240. 

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Zinc lignosulfonate (Zn-LS) is a kind of organic fertilizers made from the by-products of paper industry.With leach and plot treatments,this paper studied the difference of the biological availability between Zn-LS and an inorganic Zn-fertilizer on calcareous soil of north Guangdong Province.The results indicated that the Zn of Zn-LS was less absorbed by calcareous soil.In soil B,when applying 10 mg穔g^-1 Zn,the dissolved amount of Zn-LS was 65.2% higher than that of inorganic Zn-fertilizer,corn grew well,and its biomass was higher.In soil A,when applying 10 mg穔g^-1 Zn of Zn-LS,the biomass of corn increased by 16.3%,and its Zn content was 81.2% higher.Therefore,biological availability of Zn-LS was better than that of inorganic Zn fertilizer.

Introduction of bioluminescence genes into silicate-dissolving bacteria strain NBT

HE Linyan, HUANG Weiyi

2004, (7):  1241-1244. 

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In this study,silicate-dissolving bacteria NBT strain was grown with 0.25% maltose as carbon source,and the rifampicin-resistance was generated by ultraviolet mutagenesis and streak naturalized to 200 μg·ml^-1.Through triparental cross,the luxAB genes were introduced into NBT-R200 at the help of pRK2013.The luminescence activity of the hybrid strain was tested,which indicated that all colonies had a high luminescence activity and kanamycin-,tetracyctine-and rifampicin-resistance.The NBT-R200 cells prepared from initial logarithmic growth phage were more likely to be sensitive to foreign DNA,and the maximum translocation frequency was up to 6.70×10^-5.In addition,the optimal mating ratio was 1∶1∶1.The potassium release ability from feldspar and the luminescence of luxAB genes marked silicate-dissolving bacteria RL85 strain were stable,and hence,the RL85 was available to rhizosphere microecology researches.

Microzooplankton grazing on phytoplankton in summer in the Jiaozhou Bay,China

SUN Jun, John Dawson, LIU Dongyan

2004, (7):  1245-1252. 

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With dilution method,this paper studied the microzooplankton grazing on phytoplankton inside,outside and in a harbor area of the Jiaozhou Bay during June and July 2002.The dominant phytoplankton species outside and inside the bay were Cylindrotheca closterium and Skeletonema costatum,while the samples in the harbor had Skeletonema costatum,Eucampia zodiacus,and Chaetoceros curvisetus as the dominant species.The dominant microzooplankton species outside and inside the Jiaozhou Bay were Tintinnopsis beroidea and unidentified Strombidium sp.,while in the harbor,Strombidium sp.was the predominant microzooplankton species coexisted with few T.beroidea.The grazing rate of microzooplankton was 0.96 and 1.20 d^-1 outside the bay,1.33 d^-1 inside the bay,and 0.36 d^-1 in the harbor.The grazing rates of microzooplankton and the consumption percentages of potential primary production increased in turn from harbor area,outside the bay,to inside the bay.They were 74% and 84% outside the bay,93% inside the bay,and 53% in the harbor.The ingestion rate of phytoplankton carbon by microzooplankton was the highest in the harbor,with a value of 281 mgC穖^-3穌^-1,the next was inside the bay,with a value of 102 mgC穖^-3穌^-1,and the lowest was outside the bay,ranged from 31 to 49 mgC穖^-3穌^-1.It seems that the phytoplankton community size structure and grazing behaviors of dominant microzooplankton species are the causes for these grazing differences.Compared with the similar studies in other bays around the world,the grazing pressure of microzooplankton in the Jiaozhou Bay is at the middle levels.

Interspecific interaction between Moina mongolica and Brachionus plicatilis

CHEN Taoying, WANG Yan, HUANG Changzhi, HU Shiheng, ZHANG Jun

2004, (7):  1253-1256. 

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In a laboratory experiment,Moina mongolica and Brachionus plicatilis were polycultured at four relatively inoculating densities,i.e.,0.06/0.30,0.10/0.30,0.30/0.30 and 0.60/0.30 (ind穖l^-1/ind穖l^-1),while M.mongolica monocultured at 0.06,0.10,0.30 and 0.60 ind穖l^-1 and B.plicatilis at 0.30 ind穖l^-1 were used as the control.Interspecific interference did exist between M.mongolica and B.plicatilis when these two species coexisted in a microcosm.In the polycultured microcosms,depressed population density of M.mongolica resulted from the coexistence of B.plicatilis,and M.mongolica maintained at extremely low density.In opposite,M.mongolica had negligibly negative influence on the population of B.plicatilis.Further experiment showed that the mortality of M.mongolica deprived of food for 120 h was 100%,while 90% of B.plicatilis survived after 144 h of food deprivation.The relatively strong capacity of B.plicatilis in tolerating starvation may be one of the important reasons for it wins the competition against M.mongolica.

Photodegradation of 17β-estradiol induced by Chlorella vulgaris

GE Liyun, DENG Huanhuan, WU Feng, WENG Yue, DENG Nansheng

2004, (7):  1257-1260. 

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The study showed that when exposed to high-pressure Hg-lamp (HPML,λ_max≥365 nm),and the concentration of Chlorella vulgaris was 4.0×10¹⁰ cells·L^-1,the photodegradation rate of 17β-estradiol could reach to 37%.When the concentration of Chlorella vulgaris was 4.2×10¹⁰ cells·L^-1,the photodegradation of 1.5×10^-5～6.0×10^-5 mol·L^-117β-estradiol in aqueous solutions was pseudo-first order reaction.Increasing the initial concentration of 17β-estradiol could lower its photodegradation rate.The influence of light intension and Chlorella vulgaris concentration on the photodegradation of 17β-estradiol was also studied in this paper.

Purification of eutrophic wastewater by Cyperus alternifolius,Coleus blumei and Jasminum sambac planted in a floating phytoremediation system

LIU Shizhe, LIN Dongjiao, TANG Shujun, LUO Jian

2004, (7):  1261-1265. 

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In a greenhouse study,Cyperus alternifolius,Coleus blumei and Jasminum sambac were cultured in a floating phytoremediation system with plantation cups inserted into a polyfoam plate that floated in the upper part of a tank filled with 100 L domestic wastewater.The contents of chemical oxygen demand (COD_Cr),total P (T-P),total N (T-N),soluble P(S-P),ammonia-nitrogen (NH₄⁺-N) and nitrate-nitrogen (NH₃^--N) in the domestic wastewater were tested during the growth of these three plants.The results showed that Cyperus alternifolius and Coleus blumei could grow well in the floating phytoremediation system,their dry weight being 285.8% and 371.4% of the initial weight of planting,respectively,but Jasminum sambac could not grow well,being 125.0% of the initial weight of planting.The removal rate of TN by these 3 plants was 68.0%,62.0% and 45.0%,and that of NH₃^--N,COD_Cr and TP was 98.0%,80.0% and 92.0%,78.0%,66.0% and 55.0%,and 90.6%,90.5% and 88.0% respectively.Cyperus alternifolius and Coleus blumei had good effects on the removal of pollutants in the floating phytoremediation system.

On the methods of ecological security design for nature reserves

XU Haigen, BAO Haosheng

2004, (7):  1266-1270. 

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Ecological damage and loss of natural habitats have been resulting in the fragmentation of wild animal and plant population,and nature reserves have become the islands of habitats.The traditional approach that focuses on a single and isolated nature reserve is not enough to protect biodiversity.Ecological processes and components of biodiversity in broad temporal and spatial scope should be protected,and a whole conservation network should be established.Based on the requirements and the trends of biodiversity conservation at home and abroad,this paper presented the concept of ecological security design for nature reserves,which is a coordinated planning strategy that integrates ecological,social and economic aspects.Firstly,a network of nature reserves is designed at regional level;secondly,the area,shape,internal zoning of a nature reserve is designed at the node (nature reserve) of the network;and finally,the connectivity between the network and nodes (corridors) is designed.Network design of nature reserves should maintain the regional integrity and the ecological process integrity of ecosystems.Iterative method,integer linear programming,and Geographic Approach (GAP) should be employed to provide blueprints of conservation planning for one or multiple conservation objectives.

Research advance in ecological and environmental water requirement

JIANG Dejuan, WANG Huixiao

2004, (7):  1271-1275. 

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This paper discussed the advance in ecological and environmental water requirement (EEWR) study,including its conception,classification,calculation methods,and others.At abroad,the EEWR study is concentrated on rivers,and a more applicable methodology has been established; while in China,it is focused on land and river in the interior river basins of the northwestern areas,the Yellow River Basin,the Haihe river basin and the Luanhe river basin,where the water shortage problem is serious.Many achievements of great significance in the EEWR study at home and abroad have been achieved,but there are still many other ambiguous and unknown issues to be further studied in the future,summarized as:(1)the studies on the EEWR theory (including its conception,classification,calculation methods,etc.) should be strengthened;(2)it is necessary to reinforce some aspects of the EEWR study,such as the internal and external affecting factors of EEWR,the engineering approaches or measures to meet EEWR,etc.;(3)it is urgent to expand the applied research of EEWR and to realize the optimized allocation of water resources.

Significance of senescence study on tree roots and its advances

WU Chu, WANG Zhengquan, FAN Zhiqiang

2004, (7):  1276-1280. 

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Root system is one of the important components of trees,and has some important physiological functions such as nutrient and water absorption,transport and storage,anchoring,and supporting.After tree root systems formed,roots often suffer from nutrient- and water-deficient stress,and thus,their absorption of nutrients and water appears more important.Soil nutrient and water have a great spatiotemporal heterogeneity.As the heterogeneity occurs,trees regulate carbon partitioning to roots,resulting in the senescence or death of some roots of the whole root system.In forestry,the senescence of tree roots is closely related to tree productivity,because there is a close relationship between the senescence of tree roots and the absorption of soil nutrient and water.At ecosystem and global scale,the senescence of tree roots influences the cycling of carbon and nutrients,because roots exhaust a great deal of carbon fixed by source leaves through photosynthesis,and there are great amounts of nutrients in tree roots.The senescence of tree roots is influenced by many environmental factors,biotic (e.g.,fungi,bacteria,viruses,small edaphic animals) and abiotic (e.g.,water,temperature,soil nutrients,heavy metals).These factors affect the senescence of tree roots by different mechanisms.Although we have much knowledge on the senescence of tree roots and some hypotheses have been proposed,some problems still remain to be resolved,and further experiments are needed to test these hypotheses.Interdisciplinary studies integrating cytology,biochemistry,soil science,and genetics are the prerequisite for rapid advances in understanding the essence of tree root senescence.

Potential ecological risks of transgenic trees

KANG Xiangyang, LIU Zhimin, LI Shenggong

2004, (7):  1281-1284. 

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A new approach to genetic improvement of trees has been introduced with the birth of gene engineering technique.Compared to that in crops,gene introduction in trees has bigger potential ecological risk in environmental release and extension,because trees,most of which are wind-dispersed,grow on various habitats,have longer life span,and subject to relatively more extensive management.Extensive plantation of transgenic trees may reduce the genetic diversity of the trees concerned.Co-evolution of pests and pathogens is likely to be caused under the pressure of long-term and continuous selection of the trees derived from gene transferring.Escaping of exogenous gene may have a certain kind of influence on fitness of plants naturally generated,and as a result,have influence on species diversity in the natural world.It is not reasonable for China,a developing country,to reject gene introduction as an approach to promote forestry development.It is also important,on the other hand,to take future ecological safety into consideration because it is unwise to get present profit at the cost of future profit.To strengthen basic study on gene transferring,adopting safe management of varieties generated from gene transferring and increasing funds on research and management of transgenic trees are believed to be measures to decrease,to the greatest extent,ecological risks brought about by gene transferring of trees,and to quicken transformation of products of trees derived from gene-transferring into merchandises.

Principle of “multiple ecological niche of one-species (variety)" and its application in high yield cotton cultivation

MA Fuyu, SHAO Jihong, LI Luhua

2004, (7):  1285-1288. 

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The multiple ecological niche of one-species (variety) (MENOS) population is formed by one species (variety),but the ecological units have different temporal,spatial,nutritional,temperature,or water ecological niche.The formation of MENOS population is characterized by its specific object,one species (variety),multiple layer canopy,human being's active adjustment,specific niche breadth,and overlap and separation of ecological units.This paper analyzed the characteristics of the super high yield cotton population with dual ecological niche of one-species (variety) (DENOS).As for the yield components,MENOS has the characteristics of high yield canopy and different yield plants.

Designing cruxes and ecological issues of constructed wetland systems for wastewater treatment

HUA Tao, ZHOU Qixing, JIA Hongyu

2004, (7):  1289-1293. 

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Constructed wetland system for wastewater treatment is an important technological mode of economical and high-effective ecological treatment of wastewater,but it is still necessary to develop and perfect in its performance,and in particular,to make a continuous improvement and systematic optimization in its technical parameters.In this paper,the designing cruxes of constructed wetland systems for wastewater treatment at home and abroad were summarily discussed,and the optimal models and most adaptable values for constructed wetland systems were given on the basis of technological parameters such as hydraulic residence time,hydraulic conduction factors,surface loading rate,and engineering-construct design.In the meantime,some ecological methods were recommended to solve the management of wild animals and mosquito problems resulted from the operation of constructed wetland systems for wastewater treatment.

Distribution of lichens biomass and its affecting factors during restoration process of Inner Mongolia steppe

LIU Zhongkuan, WANG Shiping, HAN Jianguo, WANG Yanfen, CHEN Zuozhong

2004, (7):  1294-1296. 

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An experiment was installed in the typical steppe area of Central Inner Mongolia to study the distribution characteristics of lichen biomass in the restoration process.The experimental areas were continuously grazed for ten years (1989 to 1998) under different stocking rate,and stopped grazing since 1999.Two years (2001 to 2002) monitoring on the distribution of lichen biomass and its affecting factors showed that no significant difference was found between different stocking rate treatments (P<0.05).There existed positive correlations between lichen biomass and plant species diversity and between soil water content and soil organic matter content (P<0.05),and negative correlations between lichen biomass and soil bulk density,and between Gramineae plant functional group and plant community coverage and biomass (P<0.05).

Effect of bagging on greenhouse cucumber

CHEN Zhijie, ZHANG Shulian, LIANG Yinli, ZHANG Feng, XU Fuli, QUAN Qingzhuan

2004, (7):  1297-1300. 

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The study showed that culturing cucumber with film bag increased cucumber yield by 12.3%～15.1%,reduced abnormal cucumber by 65.3%～72.8%,and the shape of cucumber was straight and smooth.The keeping-fresh period of the cucumber prolonged to 20～25 days,its vitamin C increased 21.9%,and total sugar increased to 5.1%.Paper bagging increased cucumber yield by 7.2%～10.1%,and reduced abnormal cucumber by 52.2%～57.7%.Bag body could efficiently prevent the cucumber from the direct pollution of chemicals spray.The survival pesticides in film and paper bags was 0.760mg·kg^-1 and 1.2208 mg·kg^-1,reduced by 83 3% and 73.2%,respectively,compared to non-bagging.

Image analysis and community monitoring on coniferous forest dynamics in Changbai Mountain

LIU Qijing, LI Xuanran, HU Lile

2004, (7):  1113-1120. 

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The structure and dynamics of coniferous forests in Changbai Mountain were studied at different spatial scales,including ground survey of permanent plots and analysis of multitemporal satellite images.Plot-scale examinations showed that the mortality rate was 7%～9%,and the recruitment rate was 18%～20% per 10 years.Species composition changed over time.Picea jezoensis var. microsperma,Abies nephrolepis and Betula ermanii presented a self-maintaining capability,because they could regenerate under canopy.Larix olgensis was a pioneer species and could regenerate only in open land or gaps.This species played an important role by providing conditions for the regeneration of spruce and fir.The tree density in the mature forest was 1 000 stems·hm^-2 for trees bigger than 3 cm in diameter,which showed no significant variations among different stands.Landsat TM images were used for detecting the cover changes from 1984 to 1997 Large scales of wind throw were detected by this approach.Based on the analysis of radiance changes at the landscape scale,the pixel number of the disturbed area was similar to that of the succeeding stands,suggesting that the forest was in a state of equilibrium.Fine gaps,however,were difficult to identify with the TM data because of its coarse resolution.The mosaic structure of the subalpine vegetation was characterized by scattered larch patches.At the landscape level,the vegetation was in a stable stage.

Effects of site condition on litterfall and related nutrient return in Pinus luchuensis plantations

WANG Qin, XU Xiaoniu, Eiji HIRATA

2004, (7):  1121-1125. 

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Over three years study on the dynamics of litterfall and related nutrient return in Pinus luchuensis plantations at different sites of northern Okinawa Island,Japan showed that the annual litterfall biomass ranged from 6.54 to 8.05 Mg穐m^-2穣r^-1,with a peak from June to July.Typhoons had a strong influence on the timing and mass of litterfall.There were significant differences in nutrient concentrations among the different components of litterfall.The annual total nutrient input from litterfall ranged from 113.4 to 154.6 kg穐m^-2穣r^-1,of which,N input was the greatest and contributed 42.2% of the total.The nutrient input was in order of N>Ca>K>Mg>Na>P.Due to the significantly different site conditions,there were significant differences in annual litterfall mass and related nutrient inputs between the two sampling stands.The annual mean litterfall mass of the sampling stand P1 on the lower slope reached 8.05 Mg穐m^-2穣r^-1,which was 23.1% greater than that of P2 on the upper slope.The annual mean nutrient inputs were N 66.04,P 1.63,K 17.42,Ca 48.31,Mg 14.65 and Na 6.57 kg穐m^-2穣r^-1,and were 39.7%,48.8%,39.4%,32.9%,24.8% and 49.3% higher in P1 than in P2,respectively.The nutrient use efficiency in litter production was higher in P2 (e.g.,N 138,P 5945 and K 523) than in P1 (e.g.,N 122,P 4934 and K 462),which should be attributed to the relatively lower fertility of soil in P2.The results from the study suggested that Pinus luchuensis plantation in Okinawa was a high efficiency system.

Gaps and their natural disturbance characteristics in mid-subtropical evergreen broad-leaved forest in Wanmulin

YAN Shujun, HONG Wei, WU Chengzhen, BI Xiaoli, Wang Xingong, FENG Lei

2004, (7):  1126-1130. 

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Through field investigation on 96 gaps in some permanent plots of mid-subtropical evergreen broad-leaved forest in Wanmulin Natural Reserve of Fujian Province,this paper dealt with the gap characteristics and their natural disturbance.The results showed that the area percentage of expanded gap (EG) and canopy gap (CG) in the forest landscape was 50.86% and 16.66%,and the natural disturbance frequency for EG and CG was 0.85%·yr^-1 and 0.28%·yr^-1,respectively.The return interval of canopy gaps was about 357 years.The most popular manner of gap formation in the forest was stem breakage (58.04% of the total),and the second was uprooting (33 48%).Most gaps were formed by two trees,averaging 2.33 trees per gap.The size of most expanded gaps was in the range of 100～300m²,the gaps of 200～300m² occupied the biggest percentage in area,and those of 100～200m² occupied the biggest percentage in number.The size of most canopy gaps was under 100m²,and the gaps of <50m² had the biggest percentage in area and number.The diameter at breast height of most gap makers was 20～30cm.

Relationships between light and physiological characters of five climbing plants

HUANG Chenglin, FU Songling, LIANG Shuyun, JI Yifan

2004, (7):  1131-1134. 

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Studies on the photosynthetic and respiratory rates,light utilization efficiencies and light compensations of five climbing plants showed that the diurnal variations of photosynthetic rates presented double peak,the first peak was between 10:00 to 12:00,and the second was between 14:00 to 16:00.The phenomenon of “noon break" was obvious.The diurnal variations of respiration rates also presented double peak,the first peak was between 11:00 to 13:00,and the second was between 14:00 to 17:00.The light compensation point of Hedera nepatensis,H.helix,Parthenocissus tricuspidata,P.quinuefolia and Wisteria sinensis was 5.73,5.07,9.96,6.40 and 18.93 μmol·m^-2·s^-1,respectively,and the light utilization efficiency of W.sinensis was higher under strong light,P.quinuefolia was the second,but that of H.helix was higher under weak light.The results showed that Wisteria sinensis was a typical heliophytic plant,Parthenocissus tricuspidata and P.quinuefolia were neuter plants,and Hedera nepalensis and H.helix were typical sciophytic plants.

Monthly changes in caloric values of five shrubby Palmae species leaves

TAN Zhongqi, LIN Yiming, DING Yinlong, LIAO Qiliao, LIN Peng

2004, (7):  1135-1138. 

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Studies on the monthly changes in the ash contents and caloric values of 5 shrubby Palmae species(Chamaerops humilis,Rhapis gracilis,Sabal minor,Chamaedorea cataractarum,Chamaedorea brachypoda)leaves showed that annual average ash content of the five shrubby species was 4.87%?1.37% for Chamaerops humilis,8.33%?0.89% for Rhapis gracilis,7.85%?2.64% for Sabal minor,9.20%?1.35% for Chamaedorea cataractarum,and 12.42%?1.78% for Chamaedorea brachypoda.The monthly changes of gross caloric value were different for Chamaerops humilis,Rhapis gracilis and Sabal minor,but similar to each other for Chamaedorea cataractarum and Chamaedorea brachypoda,and the annual average gross caloric value of the five shrubby species was 20.50?0.32 kJ穏^-1 for Chamaerops humilis,20.04?0.50 kJ穏^-1 for Rhapis gracilis,20.21?0.68 kJ穏^-1 for Sabal minor,20.52?0.48 kJ穏^-1 for Chamaedorea cataractarum and 18.90?0.47 kJ穏^-1 for Chamaedorea brachypoda.The gross caloric values were correlated remarkably with ash contents for Chamaedorea cataractarum and Sabal minor(P<0.05),but there was no significant correlation between gross caloric values and ash contents for other three species(P>0.05).Rhapis gracilis and Sabal minor,and Chamaedorea cataractarum and Chamaedorea brachypoda had similar monthly changes in ash free caloric values,respectively.The average ash free caloric value of the five shrubby species was 21.55?0.53 kJ穏^-1 for Chamaerops humilis,21.87?0.46 kJ穏^-1 for Rhapis gracilis,21.84?0.53 kJ穏^-1 for Sabal minor,22.60?0.81 kJ穏^-1 for Chamaedorea cataractarum,and 21.59?0.63 kJ穏^-1 for Chamaedorea brachypoda.Chamaedorea cataractarum had a higher ash free caloric value than other four species (P<0.05),and the ash free caloric values of Chamaerops humilis,Rhapis gracilis,Sabal minor and Chamaedorea brachypoda were similar,the differences being not significant by t test(P>0.05).

Genetic diversity of rare and endangered plant Magnolia amoena

LIU Dengyi, CHU Ling, YANG Yuehong

2004, (7):  1139-1142. 

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The genetic variations within and between eleven natural populations and one cultured population of Magnolia amoena from different distribution regions were investigated at the DNA level by employing RAPD.Out of 40 random primers,fourteen random primers were screened which could generate highly reproducible and clear RAPD fragments for further population analysis.With these primers,a total of 94 discernible DNA fragments were obtained and 23(24.4%) were polymorphic,which indicated that low levels of genetic variation existed in the investigated populations.In addition,UPGMA map were made according to the genetic similarity and distance of the twelve populations calculated in this article.The result showed that the genetic diversity between individuals within population was lower than that between populations.The individual genetic differentiation might be relation to their geographic distribution.The low total genetic diversity of Magnolia amoena was one reason for its endangerment.

Effects of meteorological factors and mineral elements on the content of resveratrol in Polygonum cuspidatum rootstalk

CAO Yong, ZHANG Min, YU Huazhong, LI Guozhang, DU Yatian, XIAO Langtao

2004, (7):  1143-1147. 

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By determining monthly the content of resveratrol and eight mineral elements (Ca,Cu,Fe,K,Mg,Na,Zn,Mn) in the rootstalk of Polygonum cuspidatum,by considering the dynamic meteorological factors and by analyzing the principal components,we are investigating the dynamic relationship laws among mineral elements,meteorological factors and the content of resveratrol in Polygonum cuspidatum rootstalk in varied seasons.The results indicated that the correlation coefficient between Cu and Fe;between Mg and K;between Mg and Zn;between K and Zn;between Ca and average sunlight hours per month are 0.812,0.871,0.793,0.729,0.602.Their correlation is markedly in the positive 0.01 levels.The correlation coefficient between Cu and average air temperature in a month;between Mn and average air temperature in a month;between Fe and K are -0.738,-0.712, -0 766.Their correlation is markedly in negative 0.01 levels.The correlation between Cu and the content of resveratrol is markedly in negative 0.05 levels.Of the five principal factors affecting the content of resveratrol,two were found to be principal:“mineral element factors of promoting enzyme reacts" and “the meteorological factors of high temperature and strong shines".The percentage results of these two principal are 33 539% and 33.358%,making a total of 68.897%.The two factors above are also the main reasons for the variation of Polygonum cuspidatum resveratrol.A regression equation was set up through correlation and regression analysis between the changing content of resveratrol and the principal component.

Soil water characteristics in Picea crassifolia forestry lands in Qilian Mountains

DANG Hongzhong, ZHAO Yusen, CHEN Xiangwei, LI Jinjun, DA Guangwen, ZHU Youwen

2004, (7):  1148-1152. 

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The study of soil water content and its main affecting factors in Picea crassifolia forestry lands in Qilian Mountains showed that the Picea crassifolia forestry lands were characterized by lower soil bulk weight and higher soil water infiltration rate,and the vertical distribution of soil water was apparently affected by precipitation.The soil bulk weight of shrub-Picea crassifolia forestry land,moss-Picea crassifolia forestry land and meadow land was 0.522,0.641 and 0.874 g·cm^-3,initial water infiltration rate was 6.0,21.0 and 2.5 mm·min^-1,and stable infiltration rate was 3.98,11.2 and 0.5 mm·min^-1,respectively.The soil of moss-Picea crassifolia land in 100 cm depth could be partitioned into 4 layers,i.e.,active layer(0～30 cm),regulation layer(30～60 cm),transmission layer(60～80 cm) and accumulation layer(below 80 cm),and the amount of stored water in each layer was 3.30,3.17,2.80 and 2.83 mm·cm^-1,respectively.The soil of shrub-Picea crassifolia land could be partitioned into 3 layers,i.e.,stable layer(0～30 cm),active layer(30～60 cm)and transmission layer(below 60 cm),and the amount of stored water in each layer was 3.98,3.65 and 3.48 mm·cm^-1,respectively.The seasonal variance of soil water content in Picea crassifolia forestry lands was strongly affected by precipitation.The water holding capacity of shrub-Picea crassifolia forestry land was higher and the water transmission capability was lower than that of Moss-Picea crassifolia forestry land.

Comprehensive evaluation and selection of urban eco-engineering virescent trees in Shenyang City

LU Min, JIANG Fengqi, LI Yingjie

2004, (7):  1153-1156. 

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Urban virescence eco-engineering is the core of urban eco-environmental construction,which can promote urban sustainable development.In urban virescence eco-engineering,the comprehensive evaluation of ecological adaptability and ecological effect of urban plants is the scientific basis of rational application and selection of urban garden plants.The ecological effect and integrative functions of urban virescence eco-engineering depend upon the selection and layout of garden plants.Using the methods of garden expert consultation and evaluation,this paper established systematically integrative evaluation and application indices of virescence plants in Shenyang City,from the aspects of ecological adaptability,ecological effect,beautification effect,resistance to plant diseases and insect pests,anti-pollution and economic results.According to garden experts evaluation and location of Shenyang,200 sorts of virescence trees were evaluated and classified on the basis of the comprehensive evaluation system of virescence trees,and using cold resistance,drought resistance,barren resistance,plant diseases and insect pests resistance,anti-pollution,ornamental quality and ecological effects as the indexes.The results showed that the number of first rank trees was 58,the second was 93,the third was 38,and the fourth was 11,ranked by integrative performance.

Vegetation diversity of wild Chinese alligator(Alligator sinensis) habitats

ZHOU Shoubiao, QIN Weihua, JIANG Hongxin, WU Xiaobing, WU Lusheng, WANG Hengying, SHAO Min

2004, (7):  1157-1160. 

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In June and July of 2003,a field survey on the vegetation of 22 Chinese alligator habitats distributed in Nanling county,Jingxian county,Guangde county,Langxi county and Xuancheng city of Anhui province was conducted,and the plant species of the habitats were recorded and analyzed.The results showed that the vegetation of the whole habitats was secondary,and there were 294 species vascular plants,belonging to 92 families.Pteioblastus amarus shrubbery could be found in all sites,and part differences of the vegetation consisted in different habitats.The relationship between Chinese alligator and habitat vegetation was also analyzed.All of these could offer some basic botanical data for the further protection of the Chinese alligator.

On the causes of mite pest outbreaks in mono- and poly-cultured moso bamboo forests

ZHANG Yanxuan, ZHANG Zhiqiang, Yutaka Saito, LIU Qiaoyu, JI Jie

2004, (7):  1161-1165. 

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In this paper,the damage of phytophagous mites Schizotetranychus nanjingensis Ma & Yuan,Aponychus corpuzae Rimando and Aculus bambusae Kuang to moso bamboo (Phyllostaychs pubescens) was examined for ten pairs of mono- and poly-cultured forests at six locations in Fujian,China.The results showed that the mite damage in mono-cultured forests (35%) was twice as high as that in poly-cultured forests (17.5%<the injury level of 20%),and the difference was significant by t-test.The total pest mites in the mono-cultured forests at six locations in Fujian were 289.29% as high as those in the poly-cultured stands.Typhlodromus bambusae,a nature enemy in the poly-cultured forests at five locations in Fujian,was 262.5% as high as that in the mono-cultured forests.The proportion of pest mite and nature enemy in the mono-cultured forests was 1:118,but was 1:13 in the poly-cultured forests.The change of bamboo cultivation (mono-culture,crowding of bamboo plants,and removal of underfloor plants) might be the major cause of mite pest outbreaks in moso bamboo forests.

Krigle estimation and its simulated sampling of Chilo suppressalis population density

YUAN Zheming, Bai Lianyang, Wang Kuiwu, Hu Xiangyue

2004, (7):  1166-1170. 

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In order to draw up a rational sampling plan for the larvae population of Chilo suppressalis,an original population and its two derivative populations,random population and sequence population,were sampled and compared with random sampling,gap-range-random sampling,and a new systematic sampling integrated Krigle interpolation and random original position.As for the original population whose distribution was up to aggregative and dependence range in line direction was 115 cm (6.9 units),gap-range-random sampling in line direction was more precise than random sampling.Distinguishing the population pattern correctly is the key to get a better precision.Gap-range-random sampling and random sampling are fit for aggregated population and random population,respectively,but both of them are difficult to apply in practice.Therefore,a new systematic sampling named as Krigle sample (n=441) was developed to estimate the density of partial sample (partial estimation,n=441) and population (overall estimation,N=1500).As for original population,the estimated precision of Krigle sample to partial sample and population was better than that of investigation sample.With the increase of the aggregation intensity of population,Krigel sample was more effective than investigation sample in both partial estimation and overall estimation in the appropriate sampling gap according to the dependence range.

Bioactivity of Myoporum bontioides extracts to Plutella xylostella

GU Wenxiang, HE Yanbiao, HE Tingyu, PANG Xiongfei, XIAN Jidong

2004, (7):  1171-1173. 

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The bioactivity of Myopdrum bontioides extracts to Plutella xylostella was studied with IIPC as evaluated index.The results showed that petroleum ether and chloroform extracts had a higher activity than ethyl acetate and alcohol extracts.At 0.01gDW·ml^-1,the ODR of petroleum ether and chloroform extracts was 84.69% and 79 90%,and 76.47% and 45.70% after treated 1d and 3d,while the IIPC was 0.1565 and 0.2055,respectively.Provided with a higher concentration of 0.05 gDW·ml^-1,the ODR was 88.52% and 72.25%,and 87 33%,58.37%,while the IIPC was 0.1125 and 0.2620,respectively.From the chloroform extract of Myopdrum Bontioides,three flavonoids,2,3-dihydro-5,7-dihydroxy-2-phenyl-4H-1-Benzopyran-4-one(Ⅰ),3,5,7-trihydroxy-2-phenyl-4H-1-Benzopyran-4-one(Ⅱ)and 5,7-dihydroxy-3-methoxy-2-(4-methoxyphenyl)-4H-1-Benzopyran-4-one(Ⅲ),were isolated,and their structure were identified based on the analyses of physical and spectrum data.Among these compounds,(Ⅱ)had a better bioactivity to Plutella xylostella.

Interaction between chlopyrifos and microorganisms in soils

LIU Xin, YOU Minsheng, LIAO Jinying, WEI Yingzhi

2004, (7):  1174-1176. 

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The experimental results showed that in sterilized soils,the degradation rate of 50 mg穔g^-1,500 mg穔g^-1 and 5 000 g穔g^-1 chlopyrifos was very slow (only 20% after 60 d),and in soils which previously treated with chlopyrifos,the degradation rate of 50 mg穔g^-1,500 mg穔g^-1 and 5 000 mg穔g^-1 chlopyrifos was 100%,90% and 80%,respectively.However,in un-sterilized and untreated soils,the degradation rate was at the medium of the rates mentioned-above,indicating that soil microorganisms played an important role in chlopyrifos degradation,and using chlopyrifos could induce the chlopyrifos degrading ability of soil microorganisms.Compared to the soils untreated with chlopyrifos,the soils treated with 50 mg穔g^-1 and 500 mg穔g^-1 chlopyrifos had somewhat increased bacteria and fungi during a short period of treatment,which recovered to normal level after 60 days.But,when treated with 5 000 mg穔g^-1 chlopyrifos,the bacteria and fungi were inhibited,and couldn't recover after 60 days.Under the same treatment condition,the number of bacteria and fungi was not different between soils previously treated and untreated with chlopyrifos,which indicated that enhanced degradation of chlopyrifos was not decided by the numbers of bacteria and fungi,but by their ability of enhanced degradation.

Effect of tillage system on soil animal,microorganism and enzyme activity in paddy field

GAO Ming, ZHOU Baotong, WEI Chaofu, XIE Deti, ZHANG Lei

2004, (7):  1177-1181. 

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A long-term experiment showed that under ridge-no-tillage,the amount of soil animal in 0～20 cm layer was 14 700 ind.·m^-2,while under no-tillage and fallow in winter,paddy-upland rotation,and conventional tillage,it was 10 450,7 950 and 6 275 ind.·m^-2,respectively.Soil microbial biomass and microbial biomass N were more in spring and autumn,and less in summer.Soil enzyme activity was higher in surface soil layer and lower in bottom soil layer.The amount of soil animal,microbial biomass and microbial biomass N and soil enzyme activity was in order of ridge-no-tillage>paddy-upland rotation>no-tillage and fallow in winter>conventional tillage.The results also indicated that ridge-no-tillage was advantageous to improve soil ecological environment and soil fertility in paddy field.

Dynamics of three kinds of nitrogen in surface water of rice field with an independent irrigation system

WANG Qiang, YANG Jingping, CHEN Jun, SHI Hongxing, XU Chunfen

2004, (7):  1182-1186. 

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Studies on the dynamics of NH₄⁺,NH₃^- and TN concentrations in the surface water of paddy field with an independent irrigation system showed that the concentration of NH₄⁺ and TN in surface water was increased to the maximum after 1day of each urea application,and then decreased rapidly with time.The ratio of NH₄⁺/TN,NH₃^-/TN and(NH₄⁺+NH₃^-)/TN was increased firstly,and then decreased. NH₄⁺ and TN could be used as the main indexes for the water pollution of the paddy field,and NH₃^- used as the assistant one.There existed a positive relation between the concentration of these three kinds of nitrogen and N application amount.Nine days after urea application was the key time to prevent the gross loss of the three kinds of nitrogen in the water surface of the paddy field.The simulation expressions of NH₄⁺ and TN with time factor could be exponential,logarithmic,power or binomial,while NH₃^- had no appropriate expression.The simulation with factors of time and N application amount showed that the simulation expressions of NH₄⁺ and TN were the same.

Extensive grazing and designed feeding with supplemented legume forages on natural grassland

ZHOU Daowei, LIN Jiaqiao, QIN Menglin

2004, (7):  1187-1193. 

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Livestock needs to be fully stuffed and fed well.Eating-well can compensate eating-full,and can rapidly increase the body weight of livestock,shorten its feeding period,enhance its production,and protect natural grassland from overgrazing. A designed feeding based on extensive grazing on natural grassland by supplementing rich crude protein-contained forage might be a new trend for optimizing the animal husbandry on grassland.Adding 20% legume forages to the diets for wethers could make the live body weight get a 40%～65% increase,achieving 52～61 kg in October extending to December. Forage production,animal nutrition and animal production were the three relatively primary factors for grassland management while focusing on grazing.Some terms such as eating-well,eating-well degree,eating-full,eating-full degree,extensive grazing and designed feeding were also defined respectively in this paper.

Influence of male surgical sterilization on social behavior of brandt's vole

ZHANG Jianjun, ZHANG Zhibin

2004, (7):  1194-1196. 

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Using the method of surgical sterilization,this paper studied the influence of sterilized male on the social behavior of Brandt's vole.The results showed that there was no significant difference in the frequency of amicable and agnostic behaviors between male surgical sterilization group and control,and between intact and sterilized males in the same group.It could be concluded that male surgical sterilization had no influence on the social behavior of Brandt's vole.

Dynamics of ecological landscape pattern and its affecting factors in desert-oasis in Fukang,Xinjiang

LIU Xinchun, ZHANG Yuandong, REN Guangyao, PAN Xiaoling, HE Qing

2004, (7):  1197-1202. 

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The spatial pattern of ecological landscape during land utilization in Fukang is heavily influenced by natural difference and the scale of water and land resource development.Analyses on the spatial pattern based on different zones and indexes showed that from 1987 to 1998,the change of the spatial pattern of ecological landscape during land utilization in Fukang was mainly the increase of plantation area in pluvial fan and the decrease in alluvial plain.The case was on the contrary about badlands.The acreage of woodland decreased in lower mountains,uplands and alluvial plain,but no variety in alluvial plain.The acreage of grassland increased in lower mountains and uplands,while decreased in other fields.The acreage of town increased in each sample field,while that of water area remained uncharged.The landscape diversity and evenness was descending,the dominance was ascending in lower mountains and in pluvial fan,while it was reverse in alluvial plain.Accessorial fragmentation showed the increasing influence of human beings.The change of the spatial pattern of ecological landscape in Fukang focused on the acreage alteration of plantation and badlands in pluvial fan and alluvial plain. The key factor was the dynamic variation of water-salt in water and soil resource utilization.Terrain and land utilization were the key factors affecting water table,and the continuous changes of the water table worked on the spatial distribution of soil water-salt.

Dynamic modeling of potato phenological development

HUANG Chongping, ZHANG Fang, WANG Aihua, HU Bingmin, YANG Jingping

2004, (7):  1203-1206. 

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By means of systematic demonstration,this study found the mathematical relationship among several temperature driven nonlinear models for crop growth,and amended the limitation of the past nonlinear model in biological usage and the improved model with more general definition.Integrated with four years' field experimental data and Gauss function based temperature effectiveness model submitted in this study,the phenological development model for potato crop was established under different ecological conditions.The phenological development model explained the digital contribution of soil temperature increment on potato growth,and verified by the experimental data from different years and different conditions.There were strict co-relationships between modeling data and experimental data.

Growth and photosynthetic characteristics of field-grown Coffea arabica under different watering and fertilization managements

CAI Chuantao, CAI Zhiquan, XIE Jiwu, ZHOU Qinghui, CAO Kunfang, YAO Tianquan, WANG Hua

2004, (7):  1207-1212. 

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Straw mulching and drip irrigation have been widely used for coffee production.In order to know if these techniques are suitable in Yunnan,five-year-old coffee plants were separated into 8 groups to grow in the field under 2 fertilization rates (low and high) and 4 watering regimes:dry straw mulching (M),drip irrigation (I),drip irrigation + straw mulching (MI) and control treatment (CK),and the effects of various watering and fertilization treatments on the growth and photosynthetic characteristics of Coffea arabica with the density of 4500 individuals per hectare were measured.The results showed that during one year's growth period,the coffee plants had two growth peaks,one was in May when the rainy season just begun,and the another was in August to September,the middle of rainy season.Higher fertilization promoted the relative height and length growth rates of the branches,but watering treatments hadn't significant effects on them.In dry season,watering significantly promoted the Pn,g s,Tr and WUE,while water status had no significant influence on the internal fluorescence features of PSII.In wet season,high-fertilized plants had a higher leaf nitrogen content and Pn than low-fertilized plants,and Pn was positively correlated with leaf nitrogen content.In both seasons,higher fertilization increased the WUE regardless of the watering treatments.At the same time,the high-fertilization treatment significantly alleviated diurnal photoinhibition,companying with a higher energy utilization through photochemistry and a higher energy dissipation through xanthophyll cycle,which appears that high-fertilized coffee plants have the mechanism to acclimate to strong light environment.All the results indicated that wet season is the optimum time for the photosynthesis and growth of C.arabica,and C.arabica needs a high fertilization investment and fine watering managements during its whole growth period.Among the three man-made watering treatments,MI was the best,M and I had the nearly same effects but the former was more practical than the latter.

Desiccation and nitrate accumulation of apple orchard soil on the Weibei dryland

FAN Jun, SHAO Mingan, HAO Mingde, WANG Quanjiu

2004, (7):  1213-1216. 

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The study of apple orchard soil on the Weibei dryland showed that high input and high yield not only resulted in soil desiccation,but also induced nitrate accumulation in the soil profile.Generally,the soil layers with accumulated nitrate located in 40～260 cm depths,and the maximum nitrate content was 403.4 mg·kg^-1.Owing to the continuous application of nitrogen fertilizer,the accumulated nitrate could hardly be reused in the future,which might lead to environmental pollution.Because the soil storage water could not adjust the water utilization of apple trees,the yield of orchard was affected by precipitation.Therefore,the nitrogen application rate should be reduced,and actions should be taken to improve soil moisture in apple orchard.

Response of rice grain quality traits to free-air CO₂ enrichment

DONG Guichun, WANG Yulong, HUANG Jianye, YANG Hongjian, GU Hui, PENG Bin, JU Jing, YANG Lianxin, ZHU Jianguo, SHAN Yuhua

2004, (7):  1217-1222. 

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The study showed that under field condition,when the CO₂ concentration was elevated 200 μmol·mol^-1 above control,the average brown rice rate of japonica variety Wuxiangjing 14 was 1.4% higher,while lead milled rice rate was 12.3% lower than control.The brown rice rate increased at lower nitrogen supply level(LN),while lead milled rice rate increased at higher nitrogen supply level(HN).The percentage of chalky grain was 11.9% higher,and chalkiness degree was 2.8% higher than control,but no obvious difference was found in chalkiness area between the FACE and the control.The chalkiness area,percentage of chalky grain and chalkiness degree decreased at HN plus higher phosphorus supply level(HP).The gelatinization temperature was elevated 0.52℃,gel consistency increased,while amylose content was not statistically significant.The amylose content decreased at HN plus HP,while gel consistency and gelatinization temperature decreased at LN plus HP and at LN,respectively.The protein content was decreased 0.6% under FACE treatment and at LN plus lower phosphorus supply level.

Changes of polyamines level in Glycine soja and Glycine max seedlings under NaCl stress

YU Bingjun, JI Xiaojia, LIU Jun, LIU Youliang

2004, (7):  1223-1226. 

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With internationally common-used Glycine max (the salt-tolerant Lee68) and Glycine soja (the salt-sensitive N23232) as reference,this paper studied the polyamines (PAs) contents and polyamine oxidase (PAO) activities in the highly salt-tolerant BB52 (Glycine soja) seedlings,which showed that under 150mmol稬^-1 NaCl stress for 2d,the decrease of Put and Spd contents was more significant,but that of Spd content was less significant in roots of BB52 than in those of Lee68 and N23232.For leaves,the decrease of Put and increase of Spd contents were markedly observed in BB52.The ascent of (Spm+Spd)/Put ratios and descent of Put/PAs ratios showed a positive relation to their salt tolerance.The PAO activity in roots and leaves was all increased,and most obvious in N23232.The relationship between PAs levels in BB52 and its salt tolerance was also discussed.

Effect of fertilization on cucumber growth and soil biological characteristics in sunlight greenhouse

XU Fuli, LIANG Yinli, ZHANG Chenge, DU Sheni, CHEN Zhijie

2004, (7):  1227-1230. 

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This paper studied the effect of fertilization on cucumber growth and yield,soil microbial biomass and soil enzyme activities in sunlight greenhouse in Loess Plateau.The results indicated that the growth and yield of cucumber were increased with application of manure and methane.Foliage application reduced the application rate of NP and manure.Fertilization had an obvious effect on the biological characteristics of soil in sunlight greenhouse.The number of bacteria was increased by manure and foliage fertilization,and that of fungi was increased by NP and methane fertilization but decreased by manure fertilization.Fertilization with manure,NP and methane also remarkably increased the number of actinomyces and the activities of urease,phosphatase and sucrase in soil.The activities of soil urease and phosphatase were increased by fertilization of manure,but little effect was found with fertilization of NP and methane.

Effect of straw return to field and fertilization in autumn on dryland corn growth and on water and fertilizer efficiency

ZHOU Huaiping, YANG Zhiping, LI Hongmei, GUAN Chunlin

2004, (7):  1231-1235. 

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A ten years location experiment of various kinds straw return to field and deep fertilization in autumn was conducted in Shouyang dryland experimental area of Shanxi Province to study their effect on the growth and yield of dryland corn,the use efficency of soil water and fertilizer,and the changes of soil fertility.The results showed that this kind of experimental method could better solve the contradiction of deep fertilization with maintaining soil moisture and keeping a full stand of seedlings in spring,and the competition of water and fertilizer between the degradation of crop remains and the seedlings.What is more,the abundant resources of crop remains were used more sufficiently,the activity of soil microorganisms was more active,and soil fertility was obviously improved,which was proved by the complete and strong seedlings and developed roots,the photosynthesis and transpiration rates were enhanced,the water use efficiency(WUE)was increased by 3.26～3.51 kg·hm^-2·mm^-1,and the accumulated water consumption was decreased by 8.1～264.5 mm.During plant growth period,the utilization rate of fertilizer N and P could increase 3.9%～13.9% and 3.0%～9.1%,respectively,and the use efficiency of water and fertilizer was higher.The ten years accumulated yield increased 12.10～17.27 t·hm^-2,a rise of 25.6%～36.5%,and in the meantime,higher soil fertility and productivity were maintained.

Biological availability of zinc lignosulfonate on calcareous soil of north Guangdong Province

WANG Dehan, LIN Huidong, PENG Junjie, XIAO Xiongshi, LIAO Zongwen

2004, (7):  1236-1240. 

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Zinc lignosulfonate (Zn-LS) is a kind of organic fertilizers made from the by-products of paper industry.With leach and plot treatments,this paper studied the difference of the biological availability between Zn-LS and an inorganic Zn-fertilizer on calcareous soil of north Guangdong Province.The results indicated that the Zn of Zn-LS was less absorbed by calcareous soil.In soil B,when applying 10 mg穔g^-1 Zn,the dissolved amount of Zn-LS was 65.2% higher than that of inorganic Zn-fertilizer,corn grew well,and its biomass was higher.In soil A,when applying 10 mg穔g^-1 Zn of Zn-LS,the biomass of corn increased by 16.3%,and its Zn content was 81.2% higher.Therefore,biological availability of Zn-LS was better than that of inorganic Zn fertilizer.

Introduction of bioluminescence genes into silicate-dissolving bacteria strain NBT

HE Linyan, HUANG Weiyi

2004, (7):  1241-1244. 

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In this study,silicate-dissolving bacteria NBT strain was grown with 0.25% maltose as carbon source,and the rifampicin-resistance was generated by ultraviolet mutagenesis and streak naturalized to 200 μg·ml^-1.Through triparental cross,the luxAB genes were introduced into NBT-R200 at the help of pRK2013.The luminescence activity of the hybrid strain was tested,which indicated that all colonies had a high luminescence activity and kanamycin-,tetracyctine-and rifampicin-resistance.The NBT-R200 cells prepared from initial logarithmic growth phage were more likely to be sensitive to foreign DNA,and the maximum translocation frequency was up to 6.70×10^-5.In addition,the optimal mating ratio was 1∶1∶1.The potassium release ability from feldspar and the luminescence of luxAB genes marked silicate-dissolving bacteria RL85 strain were stable,and hence,the RL85 was available to rhizosphere microecology researches.

Microzooplankton grazing on phytoplankton in summer in the Jiaozhou Bay,China

SUN Jun, John Dawson, LIU Dongyan

2004, (7):  1245-1252. 

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With dilution method,this paper studied the microzooplankton grazing on phytoplankton inside,outside and in a harbor area of the Jiaozhou Bay during June and July 2002.The dominant phytoplankton species outside and inside the bay were Cylindrotheca closterium and Skeletonema costatum,while the samples in the harbor had Skeletonema costatum,Eucampia zodiacus,and Chaetoceros curvisetus as the dominant species.The dominant microzooplankton species outside and inside the Jiaozhou Bay were Tintinnopsis beroidea and unidentified Strombidium sp.,while in the harbor,Strombidium sp.was the predominant microzooplankton species coexisted with few T.beroidea.The grazing rate of microzooplankton was 0.96 and 1.20 d^-1 outside the bay,1.33 d^-1 inside the bay,and 0.36 d^-1 in the harbor.The grazing rates of microzooplankton and the consumption percentages of potential primary production increased in turn from harbor area,outside the bay,to inside the bay.They were 74% and 84% outside the bay,93% inside the bay,and 53% in the harbor.The ingestion rate of phytoplankton carbon by microzooplankton was the highest in the harbor,with a value of 281 mgC穖^-3穌^-1,the next was inside the bay,with a value of 102 mgC穖^-3穌^-1,and the lowest was outside the bay,ranged from 31 to 49 mgC穖^-3穌^-1.It seems that the phytoplankton community size structure and grazing behaviors of dominant microzooplankton species are the causes for these grazing differences.Compared with the similar studies in other bays around the world,the grazing pressure of microzooplankton in the Jiaozhou Bay is at the middle levels.

Interspecific interaction between Moina mongolica and Brachionus plicatilis

CHEN Taoying, WANG Yan, HUANG Changzhi, HU Shiheng, ZHANG Jun

2004, (7):  1253-1256. 

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In a laboratory experiment,Moina mongolica and Brachionus plicatilis were polycultured at four relatively inoculating densities,i.e.,0.06/0.30,0.10/0.30,0.30/0.30 and 0.60/0.30 (ind穖l^-1/ind穖l^-1),while M.mongolica monocultured at 0.06,0.10,0.30 and 0.60 ind穖l^-1 and B.plicatilis at 0.30 ind穖l^-1 were used as the control.Interspecific interference did exist between M.mongolica and B.plicatilis when these two species coexisted in a microcosm.In the polycultured microcosms,depressed population density of M.mongolica resulted from the coexistence of B.plicatilis,and M.mongolica maintained at extremely low density.In opposite,M.mongolica had negligibly negative influence on the population of B.plicatilis.Further experiment showed that the mortality of M.mongolica deprived of food for 120 h was 100%,while 90% of B.plicatilis survived after 144 h of food deprivation.The relatively strong capacity of B.plicatilis in tolerating starvation may be one of the important reasons for it wins the competition against M.mongolica.

Photodegradation of 17β-estradiol induced by Chlorella vulgaris

GE Liyun, DENG Huanhuan, WU Feng, WENG Yue, DENG Nansheng

2004, (7):  1257-1260. 

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The study showed that when exposed to high-pressure Hg-lamp (HPML,λ_max≥365 nm),and the concentration of Chlorella vulgaris was 4.0×10¹⁰ cells·L^-1,the photodegradation rate of 17β-estradiol could reach to 37%.When the concentration of Chlorella vulgaris was 4.2×10¹⁰ cells·L^-1,the photodegradation of 1.5×10^-5～6.0×10^-5 mol·L^-117β-estradiol in aqueous solutions was pseudo-first order reaction.Increasing the initial concentration of 17β-estradiol could lower its photodegradation rate.The influence of light intension and Chlorella vulgaris concentration on the photodegradation of 17β-estradiol was also studied in this paper.

Purification of eutrophic wastewater by Cyperus alternifolius,Coleus blumei and Jasminum sambac planted in a floating phytoremediation system

LIU Shizhe, LIN Dongjiao, TANG Shujun, LUO Jian

2004, (7):  1261-1265. 

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In a greenhouse study,Cyperus alternifolius,Coleus blumei and Jasminum sambac were cultured in a floating phytoremediation system with plantation cups inserted into a polyfoam plate that floated in the upper part of a tank filled with 100 L domestic wastewater.The contents of chemical oxygen demand (COD_Cr),total P (T-P),total N (T-N),soluble P(S-P),ammonia-nitrogen (NH₄⁺-N) and nitrate-nitrogen (NH₃^--N) in the domestic wastewater were tested during the growth of these three plants.The results showed that Cyperus alternifolius and Coleus blumei could grow well in the floating phytoremediation system,their dry weight being 285.8% and 371.4% of the initial weight of planting,respectively,but Jasminum sambac could not grow well,being 125.0% of the initial weight of planting.The removal rate of TN by these 3 plants was 68.0%,62.0% and 45.0%,and that of NH₃^--N,COD_Cr and TP was 98.0%,80.0% and 92.0%,78.0%,66.0% and 55.0%,and 90.6%,90.5% and 88.0% respectively.Cyperus alternifolius and Coleus blumei had good effects on the removal of pollutants in the floating phytoremediation system.

On the methods of ecological security design for nature reserves

XU Haigen, BAO Haosheng

2004, (7):  1266-1270. 

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Ecological damage and loss of natural habitats have been resulting in the fragmentation of wild animal and plant population,and nature reserves have become the islands of habitats.The traditional approach that focuses on a single and isolated nature reserve is not enough to protect biodiversity.Ecological processes and components of biodiversity in broad temporal and spatial scope should be protected,and a whole conservation network should be established.Based on the requirements and the trends of biodiversity conservation at home and abroad,this paper presented the concept of ecological security design for nature reserves,which is a coordinated planning strategy that integrates ecological,social and economic aspects.Firstly,a network of nature reserves is designed at regional level;secondly,the area,shape,internal zoning of a nature reserve is designed at the node (nature reserve) of the network;and finally,the connectivity between the network and nodes (corridors) is designed.Network design of nature reserves should maintain the regional integrity and the ecological process integrity of ecosystems.Iterative method,integer linear programming,and Geographic Approach (GAP) should be employed to provide blueprints of conservation planning for one or multiple conservation objectives.

Research advance in ecological and environmental water requirement

JIANG Dejuan, WANG Huixiao

2004, (7):  1271-1275. 

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This paper discussed the advance in ecological and environmental water requirement (EEWR) study,including its conception,classification,calculation methods,and others.At abroad,the EEWR study is concentrated on rivers,and a more applicable methodology has been established; while in China,it is focused on land and river in the interior river basins of the northwestern areas,the Yellow River Basin,the Haihe river basin and the Luanhe river basin,where the water shortage problem is serious.Many achievements of great significance in the EEWR study at home and abroad have been achieved,but there are still many other ambiguous and unknown issues to be further studied in the future,summarized as:(1)the studies on the EEWR theory (including its conception,classification,calculation methods,etc.) should be strengthened;(2)it is necessary to reinforce some aspects of the EEWR study,such as the internal and external affecting factors of EEWR,the engineering approaches or measures to meet EEWR,etc.;(3)it is urgent to expand the applied research of EEWR and to realize the optimized allocation of water resources.

Significance of senescence study on tree roots and its advances

WU Chu, WANG Zhengquan, FAN Zhiqiang

2004, (7):  1276-1280. 

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Root system is one of the important components of trees,and has some important physiological functions such as nutrient and water absorption,transport and storage,anchoring,and supporting.After tree root systems formed,roots often suffer from nutrient- and water-deficient stress,and thus,their absorption of nutrients and water appears more important.Soil nutrient and water have a great spatiotemporal heterogeneity.As the heterogeneity occurs,trees regulate carbon partitioning to roots,resulting in the senescence or death of some roots of the whole root system.In forestry,the senescence of tree roots is closely related to tree productivity,because there is a close relationship between the senescence of tree roots and the absorption of soil nutrient and water.At ecosystem and global scale,the senescence of tree roots influences the cycling of carbon and nutrients,because roots exhaust a great deal of carbon fixed by source leaves through photosynthesis,and there are great amounts of nutrients in tree roots.The senescence of tree roots is influenced by many environmental factors,biotic (e.g.,fungi,bacteria,viruses,small edaphic animals) and abiotic (e.g.,water,temperature,soil nutrients,heavy metals).These factors affect the senescence of tree roots by different mechanisms.Although we have much knowledge on the senescence of tree roots and some hypotheses have been proposed,some problems still remain to be resolved,and further experiments are needed to test these hypotheses.Interdisciplinary studies integrating cytology,biochemistry,soil science,and genetics are the prerequisite for rapid advances in understanding the essence of tree root senescence.

Potential ecological risks of transgenic trees

KANG Xiangyang, LIU Zhimin, LI Shenggong

2004, (7):  1281-1284. 

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A new approach to genetic improvement of trees has been introduced with the birth of gene engineering technique.Compared to that in crops,gene introduction in trees has bigger potential ecological risk in environmental release and extension,because trees,most of which are wind-dispersed,grow on various habitats,have longer life span,and subject to relatively more extensive management.Extensive plantation of transgenic trees may reduce the genetic diversity of the trees concerned.Co-evolution of pests and pathogens is likely to be caused under the pressure of long-term and continuous selection of the trees derived from gene transferring.Escaping of exogenous gene may have a certain kind of influence on fitness of plants naturally generated,and as a result,have influence on species diversity in the natural world.It is not reasonable for China,a developing country,to reject gene introduction as an approach to promote forestry development.It is also important,on the other hand,to take future ecological safety into consideration because it is unwise to get present profit at the cost of future profit.To strengthen basic study on gene transferring,adopting safe management of varieties generated from gene transferring and increasing funds on research and management of transgenic trees are believed to be measures to decrease,to the greatest extent,ecological risks brought about by gene transferring of trees,and to quicken transformation of products of trees derived from gene-transferring into merchandises.

Principle of “multiple ecological niche of one-species (variety)" and its application in high yield cotton cultivation

MA Fuyu, SHAO Jihong, LI Luhua

2004, (7):  1285-1288. 

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The multiple ecological niche of one-species (variety) (MENOS) population is formed by one species (variety),but the ecological units have different temporal,spatial,nutritional,temperature,or water ecological niche.The formation of MENOS population is characterized by its specific object,one species (variety),multiple layer canopy,human being's active adjustment,specific niche breadth,and overlap and separation of ecological units.This paper analyzed the characteristics of the super high yield cotton population with dual ecological niche of one-species (variety) (DENOS).As for the yield components,MENOS has the characteristics of high yield canopy and different yield plants.

Designing cruxes and ecological issues of constructed wetland systems for wastewater treatment

HUA Tao, ZHOU Qixing, JIA Hongyu

2004, (7):  1289-1293. 

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Constructed wetland system for wastewater treatment is an important technological mode of economical and high-effective ecological treatment of wastewater,but it is still necessary to develop and perfect in its performance,and in particular,to make a continuous improvement and systematic optimization in its technical parameters.In this paper,the designing cruxes of constructed wetland systems for wastewater treatment at home and abroad were summarily discussed,and the optimal models and most adaptable values for constructed wetland systems were given on the basis of technological parameters such as hydraulic residence time,hydraulic conduction factors,surface loading rate,and engineering-construct design.In the meantime,some ecological methods were recommended to solve the management of wild animals and mosquito problems resulted from the operation of constructed wetland systems for wastewater treatment.

Distribution of lichens biomass and its affecting factors during restoration process of Inner Mongolia steppe

LIU Zhongkuan, WANG Shiping, HAN Jianguo, WANG Yanfen, CHEN Zuozhong

2004, (7):  1294-1296. 

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An experiment was installed in the typical steppe area of Central Inner Mongolia to study the distribution characteristics of lichen biomass in the restoration process.The experimental areas were continuously grazed for ten years (1989 to 1998) under different stocking rate,and stopped grazing since 1999.Two years (2001 to 2002) monitoring on the distribution of lichen biomass and its affecting factors showed that no significant difference was found between different stocking rate treatments (P<0.05).There existed positive correlations between lichen biomass and plant species diversity and between soil water content and soil organic matter content (P<0.05),and negative correlations between lichen biomass and soil bulk density,and between Gramineae plant functional group and plant community coverage and biomass (P<0.05).

Effect of bagging on greenhouse cucumber

CHEN Zhijie, ZHANG Shulian, LIANG Yinli, ZHANG Feng, XU Fuli, QUAN Qingzhuan

2004, (7):  1297-1300. 

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The study showed that culturing cucumber with film bag increased cucumber yield by 12.3%～15.1%,reduced abnormal cucumber by 65.3%～72.8%,and the shape of cucumber was straight and smooth.The keeping-fresh period of the cucumber prolonged to 20～25 days,its vitamin C increased 21.9%,and total sugar increased to 5.1%.Paper bagging increased cucumber yield by 7.2%～10.1%,and reduced abnormal cucumber by 52.2%～57.7%.Bag body could efficiently prevent the cucumber from the direct pollution of chemicals spray.The survival pesticides in film and paper bags was 0.760mg·kg^-1 and 1.2208 mg·kg^-1,reduced by 83 3% and 73.2%,respectively,compared to non-bagging.