Table of Content

20 September 2008, Volume 19 Issue 09

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Articles

Ecological benefit evaluation of urban forests in Shenyang City based on QuickBird image and CITYgreen model.

LIU Chang-fu^1,2;HE Xing-yuan¹; CHEN Wei¹; ZHAO Gui-ling²; LI Ling²;XU Wen-duo¹

2008, 19(09):  1865-1870 . 

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Based on the urban forest coverage data interpreted from QuickBird image (2006) and the CITYgreen model, the benefits of Shenyang urban forest types with different canopy closure in carbon fixation and pollutant removal were investigated by means of sampling strategy. The results showed that the total amount of carbon storage, annual carbon sequestration, annual air pollutant removal, and their corresponding values were 0.51 Tg, 6858.20 Mg·a^-1, 556.04 Mg·a^-1, 1.26×10⁸ Yuan, 1.72×10⁶ Yuan, and 0.22×10⁸ Yuan, respectively. Among the urban forest types in Shenyang City, ecological and public welfare forest (E) contributed most to the carbon fixation and air pollutant removal. The carbon density decreased in the order of S (subordinated forest) >L (landscape and relaxation forest)>P (production and management forest)>E>R (road forest), annual carbon sequestration was in the order of P>L>E>S>R, and annual air pollutant removal was in the order of P>L>S>E>R. The carbon density of different urban forest types was closely related to their structural complexity. For the forests with high canopy closure, both the annual carbon sequestration and the annual pollutant removal were high; while for those with lower canopy closure, these two characteristics were dependent on the structural complexity of the forests.

Rainfall redistribution in subalpine Quercus aquifolioides forest in upper reaches of Minjiang River.

HE Chang-qing;XUE Jian-hui;WU Yong-bo;ZHANG Lei-yan;LIU Chong;LIU Xing-liang

2008, 19(09):  1871-1876 . 

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Based on the meteorological data from June to September 2007, the rainfall redistribution in subalpine Quercus aquifolioides forest in the upper reaches of Minjiang River was investigated by permanent plot method. The results showed that the total rainfall outside the forest was 486.7 mm, and the throughfall, stemflow, and canopy interception accounted for 82.6%, 0.9%, and 16.5% of the total rainfall, respectively. The throughfall and stemflow had significant linear relationships with rainfall (P<0.01, n=49), and the relationships of throughfall ratio and stemflow ratio with rainfall could be described with nonlinear curves. When the rainfall outside the forest was more than 3.2 mm, stemflow would happen, and there existed a significant exponential (R²=0.623) relationship between the stemflow volume and the tree basal area. The canopy interception rate decreased hyperbolically with the increase of rainfall, being significantly negatively correlated with the rainfall amount, duration, and intensity as well as the air relative humidity during rainfall (P<0.01, n=49), but positively correlated with wind velocity (P<0.01,n=49).

Responses of subtropical conifer plantation to future climate change: A simulation study.

MI Na^1,2;YU Gui-rui²;WEN Xue-fa²;SUN Xiao-min²;WANG Shu-sen³

2008, 19(09):  1877-1883 . 

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The responses of subtropical conifer plantation to climate change scenarios were investigated in Qianyanzhou by the processbased physiological-ecological model EALCO (ecological assimilation of land and climate observation). The results showed that CO₂ concentration had the greatest effects on the carbon and water fluxes of the plantation, followed by temperature, and precipitation. CO₂ concentration was the main driving factor for the gross photosynthesis productivity of this plantation ecosystem, and temperature and CO₂ concentration were the key environmental factors controlling the ecosystem respiration. Increasing temperature accelerated the respiration of aboveground part dramatically, while increasing CO₂ concentration had greater effects on soil respiration. The evapotranspiration was enhanced by increasing temperature, but reduced by increasing CO₂ concentration. Under the future climate changing scenario (the year 2100), the net primary productivity of this plantation ecosystem would be increased by 22%, suggesting that this ecosystem is still capable of sequestrating carbon.

Estimation of total carbon-containing gas emission from main tree species in forest fires in Daxing’an Mountains.

HU Hai-qing;GUO Fu-tao

2008, 19(09):  1884-1890 . 

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By the method of emission factor (EF), this paper estimated the total carbon-containing gas emission from five main tree species in Daxing’an Mountains in forest fires from 1980 to 2005. The results showed that different tree species had different EF. Pinus sylvesstris var. mongolica and Populus davidiana had the maximum and minimum EF of CO₂, respectively. Larix gmeliniiand Betula platyphylla had the maximun EF of CO and C_xH_y, while B. platyphylla and L. gmelinii had the minimum EF of CO and C_xH_y. Based on the carbon storage in different organs and the total biomass of the tree, it was estimated that the total emission of CO₂, CO and C_xH_y from the five tree in the 25 years was 16.58 Tg, 1.61 Tg and 0.54 Tg, and the ontributions of L. gmelinii, P. sylvesstris var.mongolica, B. platyphylla, P. davidiana, and Quercus mongolica were 5.00 Tg, 0.63 Tg and 0.05 Tg, 0.225 Tg, 0.023 Tg and 0.003 Tg, 11.22 Tg, 0.83 Tg and 0.41 Tg, 0.0022 Tg, 0.004 Tg and 0.00034 Tg, and 3.12 Tg, 0.13 Tg and 0.062 Tg, respectively.

Estimation of forest volume in Huzhong forest area based on RS, GIS and ANN.

LIU Zhi-hua^1,2;CHANG-Yu¹;CHEN Hong-wei^1,2

2008, 19(09):  1891-1896 . 

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Based on remote sensing (RS) which has integrated and realistic characteristics, geographic information system (GIS) which has powerful spatial analysis ability, and artificial neutral network (ANN) which can optimize nonlinear complex systems, the forest volume in Huzhong forest area was estimated. The results showed that there was an obvious negative correlation between the forest volume and infrared band, indicating that infrared band had definite potential in estimating forest volume. The forest volume also negatively correlated with visible band and PC1. Among the topographic factors, altitude exerted more influence than aspect and slope on the estimation of forest volume. The correlation coefficient of predicted value and actual value reached to 0.973, when the optimal ANN parameter, suitable GIS information, and RS bands were adopted. After principal component transformation, the amount of observation data was effectively reduced, while the predicted precision only had a small decline (R²=0.934).

Prediction and mapping of potential vegetation distribution in Yanhe River catchment in hilly area of Loess Plateau.

WEN Zhong-ming;JIAO Feng;JIAO Ju-ying

2008, 19(09):  1897-1904 . 

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The prediction and mapping of potential vegetation distribution is of instructive to the ecological restoration planning. By using generalized additive model (GAM) and in combining with GIS spatial analyst and environmental stratification sampling techniques, a distribution model for 24 dominant species in Yanhe River catchment was developed, and, based on the interspecific relationships in plant communities and the distribution probability, the spatial distribution of plant species was calculated, and the distribution of 37 plant communities and of the potential vegetation in Yanhe River catchment was predicted. The results showed that there were no significant differences between predictive values and actual data, and the predictive spatial distribution of vegetation could actually reflect the distribution of potential vegetation in Yanhe River catchment, suggesting that the established model had good ability for the vegetation distribution prediction, which was of significance to the goalsetting and planning of vegetation restoration.

Dry matter storage and water soluble sugar content in different age classes rhizomes of Phragmites communis population in dry land habitat of Songnen Plain of China.

YANG Yun-fei, ZHANG Bao-tian, TIAN Shang-yi

2008, 19(09):  1905-1910 . 

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Based on the investigation and measurement of Phragmites communis in a single dominant species community in dry land habitat of Songnen Plain, the seasonal variation of dry matter storage and water soluble sugar content in different age classes rhizomes at three growth stages were analyzed. The results showed that at all growth stages, younger age class rhizomes had lower dry matter storage and water soluble sugar content, and there was an obvious difference between younger and older age classes. The dry matter storage and water soluble sugar content in younger age class rhizomes increased rapidly with growth season, and the difference between younger and older age classes reduced gradually. In the whole growth season, all the rhizomes of six age classes kept up the activities in nutrient consumption, restorage and even overcompensating storage, and the activities of younger age class rhizomes were much higher. The dry matter storage and water soluble sugar content in older age class rhizomes increased with year. There existed extremely significant differences (P<0.01) in the dry matter storage within and among different age class rhizomes, and the difference was larger within age classes than among age classes. Significant differences (P<0.05) in water soluble sugar content were also observed among different age class rhizomes. The dry matter storage and water soluble sugar content in P. communis rhizomes increased in quadratic with increasing age class.

Physiological bases of herbages shadetolerance in Eucalyptus grandisand herbage intercultivated system.

LIU Chuang¹;HU Ting-xing¹;LIU Wen-ting¹;ZHANG Li¹;SHUAI Wei²;TANG Tian-yun¹;LI Qiang¹

2008, 19(09):  1911-1916 . 

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The study on the physiological bases of the shadetolerance of Dactylis glomerata, Lolium perenne, and Hemarthria compressa inter cultivated in Eucalyptus grandis forests with different canopy densities showed that with increasing canopy density, the light saturation point (LSP), light compensation point (LCP), chlorophyll a/b (Chla/Chlb), and the contents of proline (Pro), soluble sugar (SS) and soluble protein (SP) of the three herbages decreased gradually, but the apparent quantum yield (AQY), chlorophyll content (Chl), malondialdehyde(MDA) content, and superoxide dismutase (SOD) activity were in adverse. The daily average net photosynthesis rates (P_n) of H. compressa decreased gradually, while that of D. glomerata and L. perenne increased first and decreased then. When the canopy density was below 0.54 for D. glomerata and below 0.27 for L. perenne, the P_n of the two herbages was higher than CK. There existed significant correlations (P<0.05) between 11 physiological indices of the three herbages and canopy density, and the shadetolerance of the three herbages was in the order of D. glomerata＞L. perenne＞H. compressa, based on the ordination with average subjection function method.

Comprehensive assessment on control measures of Ambrosia artemisiifolia L.

ZHOU Zhong-shi¹;GUO Jian-ying¹;WAN Fang-hao¹;PENG Zhao-pu²;LUO Yuan-hua²;LIU yong²

2008, 19(09):  1917-1924 . 

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Three control measures of Ambrosia artemisiifolia, including biological control, chemical control, and CK without any treatment, were evaluated by analytic hierarchy process (AHP). Corresponding contributions of the three control measures to comprehensive profit (CP) and comprehensive cost (CC) were calculated and ranked, which were regarded as the assessment criteria of the control measures. The results showed that among the three control measures, biological control had the highest CP and the lowest CC, CK was in adverse, and chemical control was in intervenient. Biological control had the highest ratio of profit to cost, and suggesting that this control measure is an optimal and recommendable measure in controlling A. artemisiifolia.

Estimation of evapotranspiration from a typical marsh in Sanjiang Plain.

SUN Li^1,2;SONG Chang-chun¹

2008, 19(09):  1925-1930 . 

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Eddy covariance technique was adopted in measuring the evapotranspiration (ET) from a typical marsh in Sanjiang Plain in the growth season (May to September) of 2006. After analyzing the seasonal variation of the ET, the daily ET from the marsh was estimated by using PenmanMonteith (PM) and Priestley-Taylor (PT) models, and the estimated values were tested by the measured values. The results showed that the ET from the marsh had an obvious seasonal variation, with the lowest month-average daily ET in May and the highest one in July. The average daily ET in growth season was 194 mm·d^-1, and the total ET was 293 mm. The daily ET estimated by PM model was significantly lower than the measured one during the early and late growth seasons. A good match was observed between PT-estimated values and measured values throughout the growth season. Considering its accuracy and simplicity, PT model was more suitable for the simulation of marsh ET.

Distribution characteristics of soil phosphorus in maize belt farmlands of Northeast China.

JIANG Yong¹;ZHUANG Qiu-li¹;ZHANG Yu-ge^1,2;LIANG Wen-ju¹

2008, 19(09):  1931-1936 . 

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The study on the vertical distribution and latitudinal differentiation of soil total and organic phosphorus (P) down to 100 cm depth in maize belt farmlands of Northeast China showed that in Hailun and Harbin of Heilongjiang Province, Gongzhuling of Jilin Province, and Dashiqiao of Liaoning Province, soil total P decreased with soil depth, being significant higher in 0-40 cm than in 40-100 cm (P<0.01). In Dehui of Jilin Province and in Changtu and Shenyang of Liaoning Province, soil total P was relatively lower in 40-60 cm, but no significant difference was observed among different layers. Soil organic P was significantly higher in 0-20 cm than below 20 cm (P<0.05). Soil total and organic P increased with increasing latitude (P<0.05). The differences in climate conditions and soil types were considered as the main reasons induced the latitudinal differentiation of soil P. Soil total and organic P were significantly correlated with soil organic carbon (P<0.01), indicating that soil organic matter was one of the most important factors affecting the soil P content and its distribution in maize belt farmlands of Northeast China.

Effects of long-term fertilization and fallowing on soil nitrogen mineralization and exogenous NO₃^--N transformation.

AI Na¹;ZHOU Jian-bin^1,2;YANG Xue-yun¹;LIANG Bin¹

2008, 19(09):  1937-1943 . 

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Soil samples were collected from a 17-year fertilization experiment site in southern Loess Plateau to study the effects of different fertilizations and fallowing on the characteristics of soil nitrogen mineralization, and the ransformation of exogenous NO₃^--N in sterilized and non-sterilized soil samples. The results showed that a combined application of manure and chemical NPK and long-term fallowing increased the contents of soil organic matter, total N, and mineralized N, as well as the N mineralization rate significantly, compared with the control. Applying chemical NPK increased soil inorganic N content, but had less effects on the contents of soil organic matter, total N and mineralized N, as well as the N mineralization rate. Autoclaved sterilization resulted in a significant increase of soil NH₄⁺-N content, while soil NO₃^--N content remained relatively constant whether sterilization or not, suggesting that under the conditions of our incubation, abiotic and biological factors had no significant effects on the transformation of exogenous NO₃^--N.

Organic carbon mineralization in various size aggregates of paddy soil under aerobic and submerged conditions.

HAO Rui-jun^1,2,3;LI Zhong-pei^1,2;CHE Yu-ping¹;FANG Hai-lan³

2008, 19(09):  1944-1950 . 

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With incubation tests in laboratory, the mineralization of organic carbon in various size aggregates of paddy soil was investigated under aerobic and submerged conditions. The results showed that the organic carbon mineralization in various size aggregates decreased quickly at the beginning of the incubation, but remained stable during the late period of incubation. The mineralization rate varied significantly with the size of the aggregates. Through the incubation time, the organic carbon in 1-2 mm aggregates had the highest mineralization rate, while that in <0.053 mm aggregates had the lowest one. Statistic analyses indicated that the mineralization rate of organic carbon in various size aggregates was significantly and linearly correlated with the contents of organic carbon and microbial biomass carbon in the aggregates. 0.25-1 mm aggregates had the highest contribution to the cumulative mineralization of soil organic carbon, accounting for 41.77% under aerobic condition and 34.11% under submerged condition, while <0.053 mm and 1-2 mm aggregates had the lowest contribution under aerobic and submerged conditions, accounting for 7.8% and 6.6%, respectively.

Humus composition and stable carbon isotope natural abundance in paddy soil under long-term fertilization.

MA Li^1,2;YANG Lin-zhang¹;CI En^1,2;WANG Yan^1,2;YIN Shi-xue³;SHEN Ming-xing⁴

2008, 19(09):  1951-1958 . 

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Soil samples were collected from an experimental paddy field with long-term (26 years) fertilization in Taihu Lake region of Jiangsu Province to study the effects of different fertilization on the organic carbon distribution and stable carbon isotope natural abundance (δ¹³C) in the soil profile, and on the humus composition. The results showed that long-term fertilization ncreased the organic carbon content in top soil significantly, and there was a significantly negative exponential correlation between soil organic carbon content and soil depth (P<0.01). The organic carbon content in 10-30 cm soil layer under chemical fertilizations and in 20-40 cm soil layer under organic fertilizations was relatively stable. Soil δ¹³C increased gradually with soil depth, its variation range being from -24‰ to -28‰, and had a significantly negative linear correlation with soil organic carbon content (P<0.05). In 0-20 cm soil layer, the δ¹³C in treatments organic manure (M), M+NP, M+NPK, M+straw (R)+N, and R+N decreased significantly; while in 30-50 cm soil layer, the δ¹³C in all organic fertilization treatments except R+N increased significantly. Tightly combined humus (humin) was the main humus composition in the soil, occupying 50% or more, and the rest were loosely and stably combined humus. Longterm fertilization increased the content of loosely combined humus and the ratio of humic acid (HA) to fulvic acid (FA).

Effects of relatively high temperature at grain-filling stage on rice grain’s starch viscosity profile and magnesium and potassium contents.

ZHANG Guo-fa^1,2;WANG Shao-hua¹;YOU Juan¹;ZHANG Yan-xia¹;WANG Qiang-sheng¹;DING Yan-feng¹　

2008, 19(09):  1959-1964 . 

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With rice cultivars Yangdao 6 (Indica) and Wuyujing 3 (Japonica) as test materials, the effects of relatively high temperature (RHT, mean temperature 30 ℃) at grain-filling stage (GFS) on the starch viscosity profile and magnesium (Mg) and potassium (K) contents of rice grain were studied in a phytotron. Four temperature treatments were installed, i.e., RHT at whole GFS, RHT at early GFS and optimum temperature at later GFS, optimum temperature at early GFS and RHT at later GFS, and optimum temperature (CK, mean temperature 23 ℃) at whole GFS. The results showed that RHT at GFS significantly influenced the characteristic values of rice grain’s starch viscosity profile, e.g., the values of gelatinization temperature, final viscosity, consistency, and setback increased, while those of peak viscosity, hot viscosity, and breakdown decreased, with Yangdao 6 and Wuyujing 3 followed the similar pattern. The RHT increased the contents of Mg, K, and N, especially of K, resulting in a marked decrease of Mg/K and Mg/(N·AC·K) in the grain. The grain’s amylase content (AC) of the two cultivars showed contrasting in response to temperature treatments. Wuyujing 3 performed decrease, while Yangdao 6 exhibited increase in AC values. The RHT at whole GFS affected the starch viscosity profile and the Mg and K contents most greatly, followed by the RHT at early GFS, and the RHT at later GFS. The period within 20 days after flowering was the key period during which temperature affected the grain’s starch viscosity profile and Mg and K contents. The Mg/K and Mg/ (N·AC·K) in rice grain significant correlated with the characteristic values of starch viscosity profile, which could be used as the reference indices of rice eating quality.

Effects of irrigation amount and stage on water consumption characteristics and grain yield of wheat.

WANG De-mei;YU Zhen-wen

2008, 19(09):  1965-1970 . 

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Field experiment was conducted in 2005-2007 to study the effects of irrigation amount and stage on the water consumption characteristics, grain yield, and water use efficiency of wheat. The results showed that the variation coefficient of the proportion of soil water consumption amount to total water consumption amount was significantly higher than that of precipitation to total water consumption amount, suggesting the relatively wide regulation range of soil water use efficiency. The proportions of irrigation amount, precipitation, and soil water consumption amount to total water consumption amount were 31.0%, 38.9%, and 30.1% in treatment W₃ (irrigated at jointing and flowering stages, with total irrigation amount of 120 mm), and 51.7%, 32.4%, and 15.9% in treatment W₅ (irrigated before winter and at jointing, flowering and grainfilling stages, with total irrigation mount of 240 mm), respectively, indicating that treatment W₃ had a significantly higher proportion of soil water consumption amount to total water onsumption amount than treatment W₅. Though treatments W₂ (irrigated before winter and at jointing stage) and W3 (irrigated at jointing and flowering stages) had the same irrigation amount (120 mm), the water consumption amount during the period from flowering to maturing was significantly higher in W₃ than in W₂, while the water consumption amount before jointing was significantly lower in W₃ than in W₂. The water consumption pattern in treatment W₃ was in agreement with the water requirement pattern of wheat, which was the physiological basis of high water use efficiency.

Winter wheat yield gap between field blocks based on comparative performance analysis.

CHEN Jian¹;WANG Zhong-yi²;LI Liang-tao³;ZHANG Ke-feng³;YU Zhen-rong³

2008, 19(09):  1971-1976 . 

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Based on a two-year household survey data, the yield gap of winter wheat in Quzhou County of Hebei Province, China in 2003-2004 was studied through comparative performance analysis (CPA). The results showed that there was a greater yield gap (from 4.2 to 7.9 t·hm^-2) between field blocks, with a variation coefficient of 0.14. Through stepwise forward linear multiple regression, it was found that the yield model with 8 selected variables could explain 63% variability of winter wheat yield. Among the variables selected, soil salinity, soil fertility, and irrigation water quality were the most important limiting factors, accounting for 52% of the total yield gap. Crop variety was another important limiting factor, accounting for 14%; while planting date, fertilizer type, disease and pest, and water press accounted for 7%, 14%, 10%, and 3%, respectively. Therefore, besides soil and climate conditions, management practices occupied the majority of yield variability in Quzhou County, suggesting that the yield gap could be reduced significantly through optimum field management.

Spatiotemporal evolvement of soil microbiological characteristics in upland fields with different utilization duration in Cixi, Zhejiang Province.

HU Jun-li^1,2; LIN Xian-gui^1,2;YIN Rui^1,2;CHU Hai-yan^1,2;ZHANG Hua-yong^1,2;WANG Jun-hua^1,2;AO Zhi-hong^1,2

2008, 19(09):  1977-1982 . 

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The microbial number, microbial biomass, and enzymatic activities in five upland soils under agricultural utilization for 50-700 years were determined, with the correlations between soil microbiological characteristics and agricultural utilization duration analyzed. In the meantime, the functional diversity of microbes in soils having been utilized for 50, 100, and 700 years were investigated. The results showed that at the early stage (<100 years) of agricultural utilization, the number of soil fungi (F) had a slight increase, while the bacterial number (B), B/F ratio, microbial biomass C (C_mic), microbial biomass N (N_mic), and the activities of catalase, invertase and urease all decreased markedly. After utilized for more than 100 years, the F decreased significantly, while the B, B/F ratio, C_mic, N_mic, and the activities of test enzymes all tended to increase. During the whole utilization period from 50 to 700 years, the C_mic/N_mic ratio had a significant increase with year. The Shannon, Simpson, and McIntosh indices of soil microbial community had the same responses to the agricultural utilization duration as the bacterial number, microbial biomass, and enzymatic activities. All of these indicated that in the upland fields in Cixi of Zhejiang Province, shifts of soil microbial community occurred with increasing agriculturalutilization duration, and soil microbiological quality had an overall increase after 100 years agricultural utilization.

Effects of exogenous Ca²⁺ on leaf photosynthetic apparatus and active oxygen scavenging enzyme system of chrysanthemum under high temperature stress.

SUN Xian-zhi¹;GUO Xian-feng²;ZHENG Cheng-shu¹;WANG Wen-li¹;LIANG Fang¹

2008, 19(09):  1983-1988 . 

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Taking cut flower chrysanthemum ‘Jinba’ as test material, the effects of exogenous Ca²⁺ on its photosynthetic system and antioxidant enzyme activities under high temperature stress were investigated, with the possible action mechanisms of Ca²⁺ discussed. The results showed that under high temperature stress, Ca²⁺ addition greatly inhibited the net photosynthesis rate (P_n) and quantum yield of PSⅡ electron transport (Φ_PSⅡ). After 24 h treatment, the P_n and Φ_PSⅡ were increased by 31.11% and 21.88%, respectively, and the initial fluorescence (F_o) decreased by 13.19%, compare with the control. Ca²⁺ addition also greatly enhanced the activities of SOD, POD and CAT, and thus, the active oxygen was scavenged timely. After 24 h treatment, the MDA accumulation and REC were 29.20% and 35.81% lower than the control, respectively. In conclusion, Ca²⁺ addition could efficiently protect chrysanthemum leaves from the damage in photosynthetic apparatus under shortterm high temperature stress.

Effects of NaCl stress on free polyamines content and reactive oxygen species level in pumpkin roots.

ZHOU Jun-guo^1,2;HU Hui-ling²;ZHU Yue-lin¹;ZHANG Gu-wen¹;LIU Zheng-lu¹

2008, 19(09):  1989-1994 . 

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Taking Cucurbita moschata Duch hybrid 360.3×112.2 and C. ficifolia Bouche as test materials, the effects of NaCl stress on their plant growth and the O₂^-· production rate and H₂O₂ and free polyamines (PAs) contents in their roots were studied with hydroponic culture. The results showed that after 10 d NaCl stress, the plant growth of the two pumpkin varieties was strongly inhibited, compared with the control, and C. ficifolia was more injured than hybrid 360.3×112.2. Under NaCl stress, the root O₂^-· production rate and H₂O₂ content of the two pumpkin varieties were increased, but their absolute values were lower in hybrid 360.3×112.2 than in C. ficifolia. The contents of PAs, putrescine (Put), spermidine (Spd) and spermine (Spm) and Put/PAs ratio in the roots of the two pumpkin varieties were always higher than the control and had a trend of increased first and decreased then; while the (Spd+Spm)/Put ratio was lower than the control and decreased first and increased then. Compared with C. ficifolia Bouche, hybrid 360.3×112.2 always had a lower Put/PAs ratio and a lower Put content in its roots, but the (Spd+Spm)/Put ratio and Spd and Spm contents were always higher. It was concluded that under NaCl stress, the increasing PAs content in the roots of test materials played an active role in decreasing or scavenging reactive oxygen species (ROS). The conversion of Put to Spd and Spm was advantageous to the increase of plant salt tolerance. The higher salt tolerance of hybrid 360.3×112.2 was closely related to the lower Put/PAs ratio and the higher (Spd+Spm)/Put ratio and PAs content in its roots, and thus, the stronger capacity to scavenge ROS.

Land use change and its driving factors in Mongolia from 1992 to 2005.

WEI Yun-jie^1,2;ZHEN Lin¹;LIU Xue-lin^1,2;Ochirbat Batkhishig³

2008, 19(09):  1995-2002 . 

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Based on the remote sensing images in 1992 and 2002 and the MODIS images in 2001 and 2005, as well as relevant statistical information, the integrated characteristics and the spatial heterogeneity of land use change in Mongolia were analyzed, with the driving factors discussed. The results showed that from 1992 to 2005, the area of farmland and forestland in Mongolia decreased significantly, that of construction land and unused land exhibited an increasing trend, water area showed a slight decrease, and grassland had less change in its area but declined in its quality. A significant regional difference was observed in the land use change, which mainly concentrated in the mountain areas of the western plateau and in the northern part of southern Gobi area. Both natural (climate change and natural disasters) and social (policies, regulations, and population increase) driving factors were responsible for the land use change in Mongolia.

Dynamics of land use landscape pattern in Hangzhou City during its rapid urbanization

DENG Jin-song¹;LI Jun²;YU Liang¹;WANG Ke¹

2008, 19(09):  2003-2008 . 

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Based on the multitemporal SPOT images of Hangzhou City in 1996, 2000, 2003, and 2006, a method combining Principal Component Analysis (PCA) and hybrid classifier was adopted to accurately extract the land use change information. Meantime, the dynamics and characteristics of landscape pattern change were analyzed by using landscape indexes. The results showed that from 1996 to 2006, the rapid urbanization in Hangzhou induced a tremendous conversion of landscape pattern. Owing to the anthropogenic disturbance, the agricultural landscape was gradually replaced by manmade landscape, and the dynamics of the landscape pattern in Hangzhou exhibited complexity and diversity. Cropland landscape was impacted most seriously, being encroached at large scale; orchard landscape suffered from slight impact due to its small occupation in the landscape; forest landscape was insensitive to the impact due to its aggregated distribution; while water landscape was impacted greatly but exhibited slight fragmentation. Urban land landscape was the one undergone the biggest and quickest change.

Services value of different landscape types in Longitudinal Range-Gorge Region.

XU Tian^1,2;LI Zheng-hai^1,3;NIU Jian-ming²;BAO Ya-jing¹;CHENG Yan⁴; L Hai-yan⁵;WANG Hai-mei⁶;GAO Ji-xi³

2008, 19(09):  2009-2015 . 

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Based on the RS image of Longitudinal Range-Gorge Region (LRGR) in 2001, thestudyarea was classified into seven first-class landscape types (forestland, grassland, farmland, wetland, water body, urban land, and glacier), and 26 second-class landscape types in consideration of climate belt, vegetation, and topography. By using GIS technology, the services value of different landscape types of LRGR were studied in regards to the study results on services value of Chinese terrestrial ecosystems. The results indicated that the total services value of LRGR was 5 302.35×10⁸ yuan·a^-1, accounting for 9.47% of the whole country. The service value of soil conservation was the highest, which occupied 18.05% of the total services value, while the service values of gas adjustability and biodiversity protection ranked the second and third. Due to its distribution extent and services intensity per unit area, the forest landscape, which covered 6611% of the total area, contributed most (85.34%) to the total service value of LRGR, followed by grassland and farmland landscapes.

Effects of climate and land use change on the changes of vegetation coverage in farming-pastoral ecotone of Northern China.

LIU Jun-hui;GAO Ji-xi

2008, 19(09):  2016-2020 . 

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Based on the remote sensing images and the meteorological data in 1986 and 2000, and by using the model of extracting vegetation coverage, the spatiotemporal changes of vegetation coverage in the farmingpastoral ecotone of Northern China in 1986-2000 were studied, with the effects of climate and land use change on the changes analyzed. The results showed that in this ecotone, the area with lower vegetation coverage was increasing, while that with higher vegetation coverage was in adverse. The regions with increasing vegetation coverage were mainly in the east of northeast section, the west of north section, and the west of northwest section of the ecotone, while the vegetation coverage in the other sections was obviously degraded. The vegetation coverage were positively correlated with precipitation and aridity index, but negatively correlated with temperature. The change direction and extent of the vegetation coverage varied with land use types.

Effects of rice-duck farming on paddy field water environment.

QUAN Guo-ming^1,2;ZHANG Jia-en¹;CHEN Rui¹;XU Rong-bao¹

2008, 19(09):  2023-2038 . 

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Field experiment was conducted to investigate the effects of riceduck farming on the water environment in paddy field. The results showed that under rice-duck farming, the temperature and pH value of the surface water in paddy field decreased, and the electrical conductivity, oxidationreduction potential, turbidity, and the contents of nitrogen (N), phosphorus (P) and potassium (K) increased. The total N, P, and K increased by 1.85-5.06 times, 2.01-8.70 times, and 42.79%-109.18%, respectively, as compared to those in conventional rice farming. All of these illustrated that rice-duck farming improved the paddy field water environment and nutrient supply, optimized the ecological environment of paddy field, and promoted the growth and development of rice.

Seasonal dynamics of phosphorus forms in water body and sediments of Nanhu Lake， Wuhan.

YANG Xue-fen;XIONG Bang-xi;YANG Ming-sheng

2008, 19(09):  2029-2034 . 

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Water samples and sediment cores were taken at 5 sites of Nanhu Lake, Wuhan to investigate the seasonal dynamics of phosphorus in water body, sediments and their interstitial water, as well as the phosphorus forms in sediments. The results showed that the average concentrations of total phosphorus (TP) and orthophosphate (PO₄^3--P) in water body were 0.240 and 0.033 mg·L^-1, respectively, with the highest concentrations of TP and PO₄^3--P in November and the lowest concentration of TP and of PO₄^3--P in February and August, respectively. The concentration of TP in sediments was averagely 1.005 mg·g^-1, being increased from April to November and becoming stable from November to February, and decreased with sedimentation depth. The concentration of PO₄^3--P in interstitial water was 0.209 mg·L^-1 on average, being the highest in November and the lowest in February, with the same vertical distribution pattern like TP in sediments. The dominant form of phosphorus in sediments was inorganic phosphorus (IP), occupying 61.4%-77.1% of total extracted phosphorus. The concentration of bio-available phosphorus (BA-P) in sediments was very high, but decreased significantly with sedimentation depth. According to the significant correlations between phosphorus forms in sediments and PO₄^3--P in interstitial water, the BA-P and auto-calcium bound phosphorus (ACa-P) in sediments should be the main P sources released from sediments to water body.

Seasonal variation patterns of NH₄⁺-N/NO₃^--N ratio and δ¹⁵NH₄⁺ value in rainwater in Yangtze River Delta.

XIE Ying-xin^1,2;ZHANG Shu-li¹;ZHAO Xu²;XIONG Zheng-qin²;XING Guang-xi²

2008, 19(09):  2035-2041 . 

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By using a customized manual rainwater sampler made of polyvinyl chloride plastic, the molar ratio of NH₄⁺-N/NO₃^--N and the natural ¹⁵N abundance of NH₄⁺ (δ¹⁵NH₄⁺) in rainwater was monitored all year round from June 2003 to July 2005 at three observation sites (Changshu, Nanjing, and Hangzhou) in the Yangtze River Delta. The results indicated that at the three sites, the NH₄⁺-N/NO₃^--N ratio and the δ¹⁵NH₄⁺ value in rainwater had the similar seasonal variation trend, being more obvious in Changshu (rural monitoring type) site than in Nanjing (urban monitoring type) and Hangzhou (urban-rural monitoring type) sites. The NH₄⁺-N/NO₃^--N ratio peaked from early June to early August, declined gradually afterwards, and reached the bottom in winter; while the δ¹⁵NH₄⁺ value was negative from late June to midAugust, turned positive from late August to mid or late November, became negative again when winter dominated from December to March, but turned positive again in next May and negative again in next July. These seasonal variation patterns of NH₄⁺-N/NO₃^--N ratio and δ¹⁵NH₄⁺ value were found in relation to the application of chemical nitrogen fertilizers during different crop growth periods, and also, the alternation of seasons and the NH₃ volatilization from other NH₃ emission sources (including excrements of human and animals, nitrogen-polluted water bodies, and organic nitrogen sources, etc.), which could be taken as an indicator of defining the sources and form composition of NH₄⁺ in atmospheric wet deposition and the intensity of various terrestrial NH₃ emission sources.

Ecological character of pelagic mysids in Yangtze Estuary of China.

GU Xiao-lian;XU Zhao-li

2008, 19(09):  2042-2048 . 

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Based on the four seasonal oceanographic cruises investigation data in the Yangtze Estuary (122°00′-123°30′ E, 29°00′-32°00′ N) in 2002-2003, the diversity and abundance dynamics of pelagic mysids as well as their relationships with fishing ground were studied. A total of 14 species were identified, among which, 10 species occurred in autumn, 8 species in spring and summer, and 2 species in winter. Clear seasonal alterations were observed, among which the highest alteration ratio (90.9%) occurred from autumn to winter. Shannon diversity index (H′) in spring, summer and autumn was above 2, and that in winter was 1. Mean abundance was the highest in summer ［234.70 ind·(100 m³)^-1］, followed by in autumn ［103.34 ind·(100 m³)^-1］, spring ［80.36 ind·（100 m³)^-1］, and winter ［12.40 ind·(100 m³)^-1］. The changes in mean abundance were in accordance with the fluctuation of seasonal temperature. Due to the adaptation to a wide range of temperature and salinity, Gastrosaccus pelagicus was dominant in spring, autumn and winter. Acanthomysis brevirostris was dominant in summer and autumn, and A. longirostrisas in winter. The dominant species in each season all made a significant contribution to total abundance. A. brevirostris was observed in large agglomerates in summer. As a kind of fish diet, mysids were of importance in the formation of fishing grounds in the Yangtze Estuary and Zhoushan Islands.

Comparison of mesozooplankton communities in North Channel and North Branch of Yangtze River Estuary.

GAO Qian; XU Zhao-li;ZHUANG Ping

2008, 19(09):  2049-2055 . 

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According to the four cruises investigations in the Yangtze River Estuary from May, August and November 2004 and February 2005, and by using species diversity indices, K-dominance curves, and similarity analysis (ANOSIM), the features of mesozooplantkon communities and their dominant species in the North Channel (NC) and North Branch (NB) were analyzed, with the effects of ecological factors, especially water salinity and temperature, on the dominant species and communities in these two waters discussed. The results indicated that the NC was composed of tidal water and oligohaline water, while the NB was featured by meso-haline or poly-haline water. Consequently, the zooplankton communities in these two waters were significantly different. In spring, the abundance and diversity of the communities were larger in NB than in NC. In NC, Sinocalanus sinicus was the only dominant species; while in NB, there were several dominate species, among which, Labidocera euchaetawas most important. In summer, the diversity of the communities in NC and NB was quite similar, but the species richness and total abundance of zooplankton were less in NC than in NB. The zooplankton in NC was made up of olio-haline communities, and that in NB was composed of brackish species, e.g., Schmackeria poplesia and ortanus vermiculus. In autumn, similar to those in spring, the abundance and diversity of the communities were larger in NB than in NC. As usual, in NC, S. sinicus was the most important species; while in NB, the zooplankton was composed of neritic community (Paracalanus parvus, P. aculeatus, L. euchaeta, and Calanus sinicus, etc.). In winter, the species richness and diversity were the lowest, and there were no obvious difference between the zooplankton communities in NC and NB. It was concluded that water salinity, water temperature, and their combination were the key factors determining the characters of the mesozooplanktonic communities. Water temperature mainly affected the seasonal alteration of the dominant species, while water salinity, which was influenced by the interaction between runoff and ocean mass, determined the local mesozooplantkon communities in NC and NB.

Remote correlations between situation indicators of rice leaf roller during its immigration period in Jiangsu Province and sea surface temperature of west Pacific as well as their longterm prediction models.

GAO Ping¹;WU Jin-gang²;YANG Rong-ming³;LIU Mei¹;HUANG Jing-feng⁴

2008, 19(09):  2056-2066 . 

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The correlations between the situation indicators (peak time of ingoing, last length of peak period, and moth quantity in peak period) of rice leaf roller in Yixing, Yandu and Jingjiang of Jiangsu Province and the grid monthly sea surface temperature (SST) of west Pacific were analyzed by statistical method, and the correlation maps were produced by using GRADS software. The regions in which the SST was significantly correlated with the situation indicators were identified, and the SST at these regions, which was processed by optimization correlation technique, was used as the predictor to set up the long-term models for predicting the situation indicators of rice leaf roller during its immigration period in the three regions. The results showed that the immigration time of rice leaf roller in each of the regions was highly correlated with the SST in that region, and the duration of immigration peak was well correlated with the SST of west Pacific. The correlations between moth amount and SST were significant and stable, and showed some seasonality. Model calibrations indicated that the agreements between outputs from all models and observations were statistically significant (α＝0.01), and model validations demonstrated the applicability of the models developed in this study in predicting the situation indicators of rice leaf roller. These models were capable of predicting the possible occurrence situation of rice leaf roller one to two months in advance, being of significance in the prevention and control of rice leaf roller, suitable management of rice production, reduction of pesticide pollution, and protection of environment.

Coordination effect between vapor water loss through plant stomata and liquid water supply in soil-plant-atmosphere continuum (SPAC): A review.

LIU Li-min; QI Hua;LUO Xin-lan;ZHANG Xuan

2008, 19(09):  2067-2073 . 

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Some important phenomena and behaviors concerned with the coordination effect between vapor water loss through plant stomata and liquid water supply in SPAC were discussed in this paper. A large amount of research results showed that plants show isohydric behavior when the plant hydraulic and chemical signals cooperate to promote the stomatal regulation of leaf water potential. The feedback response of stomata to the change of environmental humidity could be used to explain the midday depression of stomatal conductance and photosynthesis under drought condition, and also, to interpret the correlation between stomatal conductance and hydraulic conductance. The feedforward response of stomata to the change of environmental humidity could be used to explain the hysteresis response of stomatal conductance to leaf-atmosphere vapor pressure deficit. The strategy for getting the most of xylem transport requires the rapid stomatal responses to avoid excess cavitation and the corresponding mechanisms for reversal of cavitation in short time.

Research and application advances on vegetative filter strip.

WANG Liang-min¹;WANG Yan-hui²

2008, 19(09):  2074-2080 . 

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Water resources have been increasingly polluted, while vegetative filter strip (VFS) is accepted as one of the best management practices to reduce water body pollution, especially non-point source pollution. A vegetative filter strip is a vegetated strip of land, which separates the runoff and pollutant contributing areas from surface water bodies and allows the runoff and associated pollutants to be attenuated before reaching surface waters via infiltration, adsorption, uptake, decay, filtering, and deposition. In this paper, the research and application advances on VFS were reviewed, including the history, structure, mechanisms of pollution control, design, management, and cost effectiveness of VFS. The studies on VFS in China started recently, and very few results of experiments and applications had been achieved. In order to efficiently promote and use this ecological technique in China, more studies on VFS are needed to obtain relative experimental data and results.

Methods for river habitat survey and evaluation.

SHI Rui-hua;XU Shi-guo

2008, 19(09):  2081-2086 . 

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The study of river habitat is the basis for river ecological restoration and basin environmental management. In this paper, the classification, survey methods (including survey scale, sampling density, sampling season, and data recording), and data processing of river habitat were introduced, and the characteristics and application scope of the main methods (or models) widely applied in the world for river habitat evaluation were reviewed from the aspect of the relationships between living species and habitat suitability. Based on the approach of the experiences and methods of habitat research in developed countries, it was suggested that the river regulation in China should be carried out from the viewpoint of river ecosystem restoration.

Effects of microwave irradiation and electrostatic field on the survival, growth and reproduction of Moina mongolica Daday.

ZHAO Wen;XU Xian-zhong;JIN Dong;HU Yu-cai

2008, 19(09):  2087-2091 . 

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The study showed that 2 450 MHz microwave irradiation for 35 seconds or more had significant death effects on Moina mongolica Daday. Shortterm (less than 25 seconds) microwave irradiation could obviously increase the larvae number per clutch and the total fecundity over life span of the animal, with the highest fecundity under 10 seconds irradiation. Microwave irradiation could significantly prolong the life span (15.8-18 d) of M. mongolica. The short-term microwave irradiation had less effect on the development of larvae nimal, but inhibited the adult growth to some degree. Impulse electromagnetic field could significantly increase the fecundity of M. mongolica, with the highest effect of 29 kV·cm^-1; while high-voltage electrostatic field had less effect on the reproduction of M. mongolica. Both high-voltage and impulse electrostatic fields had no remarkable effects on the development of larvae animal. Highvoltage electrostatic field had lesseffect on the growth of adult animal; while impulse electromagnetic field had definite inhibition effect on it, and the inhibition effect was increased with increasing voltage.

Suffocation point and diurnal metabolism pattern of Hemifusus tuba (Gmelin).

LUO Jie; LIU Chu-wu;LI Feng;TANG Hong-chao

2008, 19(09):  2092-2096 . 

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The individuals of Hemifusus tuba (Gmelin) were divided into 3 groups, i.e., small ［S, （6.48±0.46） cm］, medium［ M, （7.59±0.41）cm］, and large［ L, （9.08±0.37） cm］, according to their shell height, and their suffocation points and diurnal metabolism patterns were investigated at water temperature (22±0.5) ℃. The results indicated that the oxygen consumption rate of H. tuba was relatively stable and maintained at 1.81 mg·g^-1·h^-1 when dissolved oxygen (DO) content was higher than 4.37 mg·L^-1, but decreased with decreasing DO when DO content was lower than 4.37 mg·L^-1. 0.43 mg·L^-1 of DO was the suffocation point of H. tuba, with the oxygen consumption rate being 0. The standard metabolism (SM) and routine metabolism (RM) of H. tuba decreased significantly with increasing body mass, and changed with the same pattern in the 3 groups,i.e., being higher at night than in daytime. There was a significant difference in the SM (F=36.263，P＜0.01) and RM (F=6.788，P＜0.01) among the 3 groups. The peak values of the specific dynamic metabolism of groups S, M, and L were 2.11, 1.62, and 1.42 mg·g^-1·h^-1, being 1.09, 0.75, and 0.71 times higher than their SM, respectively, and maintained about 15 h. The ammonia excretion rates of groups S, M, and L reached the peak after 24, 24, and 27 hours of feeding, with the peak values being 3.94, 2.64, and 1.71 μmol·g^-1·h^-1, and 0.87, 0.73 and 0.31 times higher than those in starvation state, respectively,.