Table of Content

18 June 2014, Volume 25 Issue 6

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Dynamics of major forest vegetations in Tiantong National Forest Park during the last 30 years.

WU Yang-yang1,2,3, GUO Chun-zi1,2， NI Jian1,2,3

2014, 25(6):  1547-1554. 

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The study of vegetation succession and development is not only one of the hot spots of modern ecology, but also a key issue of the sustainable development of human society, especially under the circumstances of climate change and anthropogenic disturbance. A  comparison of forest communities in the Tiantong National Forest Park (TNFP) in Zhejiang Province, eastern China from 1982 to 2012 was performed. Six forests in the park were investigated, including the typical evergreen broadleaved forest (EBLF, three subassociations), evergreen and deciduous broadleaved mixed forest (EDBLMF), evergreen conifer forest (ECF) and bamboo forest (BF). Data from two field investigations in 1982 and 2012, respectively, were used to analyze the changes of species composition, community structure and species diversity during the past 30 years. The spatial pattern and community structure of the forest vegetation in the TNFP did not obviously change. The spatial distribution of plant communities did not significantly shifted. The proportion of young trees and individuals in small diameters increased. The regeneration status of communities was healthy and the natural regeneration ability of communities was enhanced. The species diversity of the TNFP forests showed an increasing trend in the tree layer and a decreasing trend in the shrub and herb layers. Meanwhile, the evergreen component increased. Along with the changed climate, forest vegetation in the TNFP was developing towards the forward succession. Species diversity, especially the trees, increased with the increase of temperature. This demonstrated that, on one hand, forest vegetation in Tiantong had been well protected; on the other hand, there was a potential positive relationship between the EBLF succession and climate change.

 

Topsoil phosphorus forms and availability of different soil and water conservation plantations in typical black soil region, Northeast China.

YANG Xiao-yan, FAN Rui-ying, WANG En-heng, XIA Xiang-you, CHEN Xiang-wei

2014, 25(6):  1555-1560. 

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Aiming to understand soil phosphorus status of plantations in typical black soil region of Northeast China, the topsoil (0-10 cm) phosphorus fractionations and its availability were examined in four soil and water conservation plantations dominantly composed of Larix gmelini, Fraxinus mandshurica, Pinus sylvestris var. mongolica and Populus nigra var. italica × P. cathayan, respectively. The results showed that total P, OlsenP and the concentration of different P fractionations in F. mandshurica and P. nigra var. italica × P. cathayan plantations were significantly higher than that of the other two coniferous plantations. Organic P was the major fractionation in the four plantations’ topsoil, and sodium hydroxide extractable organic P (NaOHP_o) representing moderately
labile organic phosphorus was predominant, which accounted for 58.9% of total P. The contents of H₂OP_i and NaHCO₃P which were more labile to plant were lower, only accounting for 1.2% and 6.6% of total P, respectively. Except for NaHCO₃P_o, all the other P fractions of four plantations correlated with each other, and they also had significant correlations with soil organic matter, total P, OlsenP. Compared with the coniferous plantations, the broadleaf plantations presented higher availability of phosphorus.

Soil fertility characteristics under different land use patterns in depressions between karst hills.

LIU Yan1,2,3,4, SONG Tong-qing2,3, CAI De-suo1, ZENG Fu-ping2,3, PENG Wan-xia2, DU Hu2

2014, 25(6):  1561-1568. 

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Soil samples were collected from the depressions between karst hills by grid sampling method (5 m × 5 m), soil pH, soil organic carbon (SOC), total nitrogen (TN), total phosphorus (TP), total potassium (TK), available nitrogen (AN), available phosphorus (AP), and available potassium (AK) in surface layer (0-20 cm) under different land use patterns (burning, cutting, cutting plus root removal, enclosure, maize plantation, and pasture plantation) were measured, the main factors of influencing the soil fertility was identified by principal component analysis (PCA), and the relationships between soil nutrients and microorganisms were demonstrated by canonical correlation analysis (CCA). The results showed that the soil was slightly alkaline (pH 7.83-7.98), and the soil fertility differed under the different land use patterns, with 76.78-116.05 g·kg^-1 of SOC, 4.29-6.23 g·kg^-1 of TN, 1.15-1.47 g·kg^-1 of TP, 3.59-6.05 g·kg^-1 of TK, 331.49-505.49 mg·kg^-1 of AN), 3.92-10.91 mg·kg^-1 of AP, and 136.28-198.10 mg·kg^-1 of AK. These soil indexes except pH showed moderate or strong variation. Different land use patterns had various impacts on soil fertility: Soil nutrients such as SOC, TN, TP, and AN were most significantly influenced by land use patterns in the depressions between karst hills; Followed by soil microorganisms, especially soil actinomycetes, and the effect decreased with the increasing gradient of human disturbance from enclosure, burning, cutting, cutting plus root removal, pasture plantation, and maize plantation. CCA elucidated that considerable interactions existed in soil TP with MBP (microbial biomass phosphorus), TK with MBC (microbial biomass carbon), TN with actinomycetes in the burned area, while TN and MBC in the cutting treatment, AP and MBN (microbial biomass nitrogen) in the treatment of cutting plus root removal, pH with MBC and fungus in the enclosure treatment, TN and TK with MBP in the maize plantation, pH with fungi and actinomycetes in the pasture plantation. Land use patterns changed the soil fertility in the depressions between karst hills; therefore, in the ecological restoration and reconstruction of karst region with fragmented landforms and shallow soil, rational land use patterns should be adopted to improve the soil quality of degraded ecosystems.

Vertical distribution of soil active carbon and soil organic carbon storage under different forest types in the Qinling Mountains.

WANG Di1, GENG Zeng-chao1, SHE Diao2, HE Wen-xiang1, HOU Lin3

2014, 25(6):  1569-1577. 

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Adopting field investigation and indoor analysis methods, the distribution patterns of soil active carbon and soil carbon storage in the soil profiles of Quercus aliena var. acuteserrata (Matoutan Forest, Ⅰ), Pinus tabuliformis (Ⅱ), Pinus armandii (Ⅲ), pineoak mixed forest (Ⅳ), Picea asperata (Ⅴ), and Quercus aliena var. acuteserrata(Xinjiashan Forest, Ⅵ) of Qinling Mountains were studied in August 2013. The results showed that soil organic carbon (SOC), microbial biomass carbon (MBC), dissolved organic carbon (DOC), and easily oxidizable carbon (EOC) decreased with the increase of soil depth along the different forest soil profiles. The SOC and DOC contents of different depths along the soil profiles of P. asperata and pineoak mixed forest were higher than in the other studied forest soils, and the order of the mean SOC and DOC along the different soil profiles was Ⅴ＞Ⅳ＞Ⅰ＞Ⅱ＞Ⅲ＞Ⅵ. The contents of soil MBC of the different forest soil profiles were 71.25-710.05 mg·kg^-1, with a content sequence of Ⅰ＞Ⅴ＞Ⅳ＞Ⅲ＞Ⅱ＞Ⅵ. The content of EOC along the whole soil profile of pineoak mixed forest had a largest decline, and the order of the mean EOC was Ⅳ＞Ⅴ＞Ⅰ＞Ⅱ＞Ⅲ＞Ⅵ. The sequence of soil organic carbon storage of the 0-60 cm soil layer was Ⅴ＞Ⅰ＞Ⅳ＞Ⅲ＞Ⅵ＞Ⅱ. The MBC, DOC and EOC contents of the different forest soils were significanty correlated to each other. There was significant positive correlation among soil active carbon and TOC, TN. Meanwhile, there was no significant correlation between soil active carbon and other soil basic physicochemical properties.

Impact of land use types on soil macropores in the loess region.

GAO Zhao-xia1, XU Xue-xuan1,2, YU Miao-zi2,ZHANG Shao-ni2,ZHAO Chuan-pu1

2014, 25(6):  1578-1584. 

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Soil hydraulic conductivity and macropores are important parameters for determining the proportion of precipitation infiltration, simulating soil water and solution transport and establishing the hydrologic model. To investigate the effect of land use types on macropores in soils, soil hydraulic properties, macroporosity and macropore connectivity under different land use types (locust forestland, grassland, farmland and apple forestland) in the loess region were measured by Hood infiltrometer and water retention curve. The results showed that the average hydraulic conductivities under locust forestland, grassland, farmland and apple forestland were 58.60×10^-6, 54.90×10^-6, 35.30×10^-6, 23.40×10^-6 m·s^-1, respectively. The differences among land use types were statistically significant (P<0.05). The effective macropores per unit area, macroporosity and macropore connectivity were highest in locust forestland and grassland, followed by farmland and apple forestland. As a consequence of vegetation restoration, macropores which developed by plant roots and animal activity had significantly improved the soil infiltration capability. Restoring woods and grasses should persist in the loess region.

Spatial variation characteristics of surface soil water content, bulk density and saturated hydraulic conductivity on Karst slopes.

ZHANG Chuan1,2,3, CHEN Hong-song1,2, ZHANG Wei1,2, NIE Yun-peng1,2, YE Ying-ying1,2,3, WANG Ke-lin1,2

2014, 25(6):  1585-1591. 

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Surface soil waterphysical properties play a decisive role in the dynamics of deep soil water. Knowledge of their spatial variation is helpful in understanding the processes of rainfall infiltration and runoff generation, which will contribute to the reasonable utilization of soil water resources in mountainous areas. Based on a grid sampling scheme (10 m×10 m) and geostatistical methods, this paper aimed to study the spatial variability of surface (0-10 cm) soil water content, soil bulk density and saturated hydraulic conductivity on a typical shrub slope (90 m×120 m, projected length) in Karst area of northwest Guangxi, southwest China. The results showed that the surface soil water content, bulk density and saturated hydraulic conductivity had different spatial dependence and spatial structure. Sample variogram of the soil water content was fitted well by Gaussian models with the nugget effect, while soil bulk density and saturated hydraulic conductivity were fitted well by exponential models with the nugget effect. Variability of soil water content showed strong spatial dependence, while the soil bulk density and saturated hydraulic conductivity showed moderate spatial dependence. The spatial ranges of the soil water content and saturated hydraulic conductivity were small, while that of the soil bulk density was much bigger. In general, the soil water content increased with the increase of altitude while it was opposite for the soil bulk density. However, the soil saturated hydraulic conductivity had a random distribution of large amounts of small patches, showing high spatial heterogeneity. Soil water content negatively (P<0.01) correlated with the bulk density and saturated hydraulic conductivity, while there was no significant correlation between the soil bulk density and saturated hydraulic conductivity.

Inorganic N deposition in the Bayinbuluk alpine grassland of the central Tianshan mountains.

YUE ping1,2, SONG Wei1,2, LI Kai-hui1, HE Gui-xiang1,2, WANG Xiao-li1,2, LIU Xue-jun1，3

2014, 25(6):  1592-1598. 

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N deposition has increased significantly with economic development and intensive human activities in China and has affected natural ecosystems in remote areas. To evaluate the atmospheric N deposition of the Bayinbuluk alpine grassland of the central Tianshan Mountains, the dry and wet N depositions were monitored from May 2010 to December 2011. Fluxes of HNO₃, NH₃, NO₂, particulate ammonium and nitrate (pNH₄⁺ and pNO₃^-) averaged at 1.47, 0.68, 0.13, 0.23 and 0.25 kg N·hm^-2·a^-1, respectively. Wet depositions of NH₄⁺-N and NO₃^--N were 2.47 and 1.59 kg N·hm^-2·a^-1, respectively. Total atmospheric inorganic N deposition fluxes averaged at 6.82 kg N·h^-2·a^-1, and the wet and dry depositions were 4.06 and 2.76 kg N·hm^-2·a^-1, respectively. Nitrogen deposition fluxes showed a significant seasonal change, with 72.1% of dry N deposition occurring in spring and summer, and 78.3% of wet N deposition concentrating in summer and autumn.

Responses of alpine grassland landscape in the source region of Shule River Basin to topographical factors and frozen ground types.

CHEN Jian-jun1,2, YI Shu-hua1,2, QIN Yu1,2, WANG Xiao-yun1,2

2014, 25(6):  1599-1606. 

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This paper retrieved the fractional vegetation cover of alpine grassland in the source region of the Shule River Basin based on Chinese environmental satellite (HJ-1A/1B) images and field data, and analyzed the response of the vegetation cover to topographic factors and types of frozen ground. The results showed that the vegetation coverage of this region was low with large spatial heterogeneity and high degree of dispersion. The landscape consisted mainly of nonvegetation surface types, eg. ice, snow, the bare rock gravel land and bare land. Slopes and aspects were the main limiting factors of vegetation distribution. The average vegetation coverage decreased with the increase of slope. The average vegetation coverage was the lowest on the sunny slope, and the highest on the shady slope. There were significant differences of vegetation coverage among different types of frozen ground. The distribution of vegetation coverage presented a reversed “U” curve trend by extremely stable permafrost, stable permafrost, substable permafrost, transition permafrost, unstable permafrost and seasonal frost, and the average vegetation coverage was the highest in the substable permafrost.

Hydraulic limitation on photosynthetic rate of old Populus simonii trees in sandy soil of north Shaanxi Province.

ZUO Li-xiang1,2, LI Yang-yang2,3, CHEN Jia-cun3

2014, 25(6):  1607-1614. 

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‘Old and dwarf trees’ on the loess plateau region mainly occurred among mature trees rather than among small trees. To elucidate the mechanism of tree age on ‘old and dwarf trees’ formation, taking Populus simonii, a tree species that accounted for the largest portion of ‘old and dwarf trees’ on the loess plateau, as an example,  the growth, photosynthesis and hydraulic traits of P. simonii trees with different ages (young: 13-15 years, midaged: 31-34 years, and old: 49-54 years) were measured. The results showed that the dieback length increased, and net photosynthetic rate, stomatal conductance, transpiration rate, and whole plant hydraulic conductance decreased significantly with the increasing tree age. Both net photosynthetic rate and stomatal conductance measured at different dates were significantly and  positively related to the whole plant hydraulic conductance, suggesting that the decreasing photosynthetic rate of old trees was possibly caused by the declined hydraulic conductance. Although the resistance to cavitation in stems and leaves was stronger in old trees than in young and midaged trees, there were no differences in midday native stem embolization degree and leaf hydraulic conductance based on the vulnerability curve estimation, suggesting that the increased hydraulic resistance of the soilroot system is probably the most important reason for decreasing the whole plant hydraulic conductance of old trees.

Response of photosynthesis traits of dominant plant species to different light regimes in the secondary forest in the area of Qiandao Lake, Zhejiang, China.

GUAN Ming1,2, JIN Ze-xin1,2, WANG Qiang1,2,3, LI Yue-lin1,2,3, ZUO Wei1,2,3

2014, 25(6):  1615-1622. 

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To understand the mechanisms driving community succession in the secondary forest surrounding Qiandao Lake, Zhejiang, China, we investigated seasonal dynamics of the diurnal variations of net photosynthetic rates, their responses to both light and CO₂, and chlorophyll fluorescence parameters of four dominant plant species, i.e., Pinus massoniana, Castanopsis sclerophylla, Lithocarpus glaber and Cyclobalanopsis glauca in three natural light habitats, i.e., gap, edge and understory. In the three different light regimes, the daily mean values of the net photosynthetic rate (P_n) of P. massoniana and C. sclerophylla were significantly higher in summer than in the other seasons, while P_n of L. glaber and C. glauca was significantly higher in autumn than in the other seasons. In the forest gap and edge habitats, the annual mean values of the maximum net photosynthetic rate (A_max), the light saturation point (LSP), light compensation point (LCP) and dark respiration rate (R_d) of P. massoniana were the highest, followed by C. sclerophylla, and those of L. glaber and C. glauca were the lowest. In the understory habitat, the annual mean values of A_max and the apparent quantum yield (AQY) of C. glauca were the highest, followed by L. glaber and C. sclerophylla, and those of P. massoniana were the lowest. The annual mean values of the maximum rate of carboxylation (V_{c max}), maximum rate of electron transport (J_max) and triose phosphate use rate (TPU) of P. massoniana were significantly higher than those of the other three plant species in the three different light regimes. During the four seasons, the photochemical maximum efficiency of PSII (F_v/F_m) of P. massoniana and C. sclerophylla in the forest gap habitat was significantly higher, while those of L. glaber and C. glauca in the understory habitat were significantly higher than in the other light regimes. The maximum values of F_v/F_m of P. massoniana and C. sclerophylla were the highest in summer, and those of L. glaber and C. glauca were the highest in autumn. It suggested that P. massoniana and C. sclerophylla were more suitable for habitats with high light intensities such as forest gaps, and L. glaber and C. glauca were more suitable for habitats with low light intensities such as the understory. During ecological succession, P. massoniana and C. sclerophylla would withdraw from the community with the increasing canopy density, and L. glaber and C. glauca would be the dominant species in the climax community.

Effects of water depth on the growth of Vallisneria natans and photosynthetic systemⅡ photochemical characteristics of the leaves.

YANG Xin, ZHANG Qi-chao, SUN Shu-yun, CHEN Kai-ning

2014, 25(6):  1623-1631. 

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The effects of water depth on the growth of Vallisneria natans and photosynthetic systemⅡ photochemical characteristics of the leaves were investigated at three depths of 0.6, 1.3 and 2.0 m. The rapid fluorescence induction kinetics curves (OJIP) of the leaves were measured with Plant Efficiency Analyzer and analyzed with JIPtest. The results indicated that the light intensities at water depths of 0.6, 1.3 and 2.0 m were obviously different and the growth of V. natans was restricted under water depth of 2.0 m. Biomass, number of ramets, number of leaves, total root length, root surface area and other morphological indices decreased significantly with the increasing water depth, and the maximum leaf length, average leaf length, maximum leaf width changed insignificantly with the water depth. With the increasing water depth, absorption flux per reaction center (ABS/RC), trapped energy flux per RC (TR₀/RC), electron transport flux per RC (ET₀/RC), reduction of end acceptors at photosynthetic system Ⅰ(PSⅠ) electron acceptor side per RC (RE₀/RC) decreased significantly. The dissipated energy flux per RC (DI₀/RC) also decreased significantly, which led to no obvious difference in quantum yield for the reduction of end acceptors of PSⅠ per photon absorbed (φ_R0) and the efficiency for the trapped exciton to move an electron into the electron transport chain from Q_A^- to the PSⅠ end electron acceptors (δ_R0). Because the amount of active PSⅡ RCs per CS increased significantly, photosynthesis per area of V. natans grown at 2.0 m was significantly greater than that of V. natans grown at 0.6 m. The performance index PI_abs, PI_cs, PI_abs,total photochemistry efficiency of leaves of V. natans grown at 2.0 m was significantly increased, suggesting that light stress may promote a more efficient conversion of light energy to active chemical energy. V. natans leaves accommodate the low light intensity environment through activating inactive reaction centers but not through improving light utilization efficiency per reaction center, and the water depth of 1.3 m may be more suitable for the growth of V. natans.

Allelopathic effects of the humus soils from Betula platyphylla and Quercus liaotungensis pure plantations on 9 kinds of common shrubs and herbs.

HUANG Liang-jia1, LIU Zeng-wen1,2, ZHU Bo-chao1, BING Yuan-hao3, ZHANG Xiao-xi4, LU Chen1

2014, 25(6):  1632-1638. 

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The humus soils were collected from Betula platyphylla and Quercus liaotungensis pure plantations and woodless land separately where the site conditions were basically the same, and taken as medium for potting culture test of 9 kinds of shrubs or herbs in plastic greenhouse to assess the allelopathic effects of humus soils of pure plantations on shrubs or herbs. Humus soils from B. platyphylla plantation significantly inhibited the seed germinations of Medicago sativa and Melilotus officinalis, decreased the catalase (CAT) activity of M. officinalis, Coronilla varia, M. sativa and Lespedeza davurica, and improved malondialdehyde (MDA) contents in seedlings of Caragana korshinskii, C. varia and Astragalus adsurgens. The biomass growths of C. varia, Amorpha fruticosa, M. sativa, M. officinalis and A. adsurgens in humus soils from B. platyphylla plantation were significantly decreased by 48.2%, 45.1%, 44.3%, 37.3% and 36.0%, respectively. In addition, humus soil of Q. liaotungensis plantation significantly decreased the germination rates of M. sativa and A. adsurgens, the chlorophyll contents of Vicia villosa, A. fruticosa and M. sativa, and improved malondialdehyde (MDA) contents in seedlings of Lespedeza davurica, Caragana korshinskii, M. officinalis and A. adsurgens. The biomass growths of A. adsurgens, M. sativa, M. officinalis and A. fruticosa were significantly decreased by 52.6%, 43.8%, 35.5% and 34.6%, respectively. B. platyphylla plantation humus soil had obvious inhibition effects on M. sativa, M. officinalis and A. fruticosa, while Q. liaotungensis plantation humus soil had obvious inhibition effects on M. sativa, A. adsurgens and A. fruticosa.

Comparison of the water consumption characteristics of Eucalyptus and Corymbia clone seedlings and the local indigenous tree species Bischofia javanica.

HUA Lei, HE Qian, LI Ji-yue, LIU Shan, YU Fei

2014, 25(6):  1639-1644. 

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The water consumption, water consumption rate, net photosynthetic rate (P_n), transpiration rate (T_r) and water use efficiency (WUE) of Eucalyptus urophylla × E. grandis DH33-27, E. urophylla × E. grandis DH32-29, E. grandis H1, Corymbia ptychocarpa and an indigenous tree species Bischofia javanica were studied in normal soil moisture condition. The average daily water consumption of the five tree species was in the order of E. urophylla × E. grandis DH32-29(188.47±14.91) g > E. urophylla × E. grandis DH33-27(169.27±16.26) g > E. grandis H1 (118.65±5.32) g > B. javanica (38.12±1.46) g > C. ptychocarpa (20.13±1.72) g, which had obviously positive correlation with the total leaf area of each seedling. The water consumption was mostly in the daytime, which took 90% of the whole day water consumption. The daily change of the water consumption rates of 5 kinds of seedlings followed the curve with one peak at 12:00-14:00. The total water consumption ability of Eucalyptus and Corymbia was higher than that of B. javanica. The water consumption rate of C. ptychocarpa was far higher than that of the other 4 kinds of seedlings, so its large area planting should be given full consideration to this issue. The change in water consumption rate of E. urophylla × E. grandis DH33-27 was mostly impacted by environmental temperature and humidity, because its water consumption rate was the smallest among 4 kinds of Eucalyptus and Corymbia seedlings during the daytime with high temperature and low humidity. The four clone seedlings of Eucalyptus and Corymbia showed higher photosynthetic rates and transpiration rates compared with B. javanica. Two clone seedlings of E. urophylla × E. grandis had better watersaving performance. The WUE of  Eucalyptus and Corymbia was higher than that of B. javanica in general, except E. urophylla × E. Grandis DH33-27.

Instant response of individual size inequality indices to thinning regimes in plantation.

WANG Yi-xiang1,2, ZHANG Shou-gong2, LU Yuan-chang3, MENG Jing-hui4, ZENG ji3, BAI Shang-bin1

2014, 25(6):  1645-1651. 

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Four kinds of thinning treatments were designed including thinning from below, thinning from above, mechanical thinning and crop tree relea〖JP2〗se with the same thinning intensity on the 14-year-old pure Cunninghamia laceolata and Pinus massoniana plantations in Guangxi, and 6 kinds of size inequality indices were applied including stand deviation, variation coefficient, skewness, Gini coefficient, Ku〖JP〗znetz coefficient and Lorenz asymmetry coefficient to evaluate the change of individual volume inequality after the 4 kinds of thinning regimes applied. The results showed that stand deviation, variation coefficient, Gini coefficient and Kuznetz coefficient decreased and skewness increased after thinning from below or above compared with before thinning, while after crop tree release these four indices increased and skewness was uncertain. Lorenz asymmetry coefficient increased after thinning from below while it decreased after thinning from above or crop tree release compared with before thinning. There was no distinct rule for the 6 kinds of size inequality indices after mechanical thinning. The size inequality increased after crop tree release while it decreased after thinning from above or below. The study suggested that Lorenz curve, Gini coefficient and Lorenz asymmetry coefficient could be used to compare the size inequality statically and dynamically among different stands, and could be discriminated the difference of size inequality caused by the different thinning regimes. Lorenz asymmetry coefficient even could be applied to tell the size inequality was mainly from the larger or smaller individuals. Crop tree release method in closetonature management could lessen the competition pressures of crop trees and increase the size inequality of the stand effectively which would be helpful to maintain the dominant position of crop trees.

Quantitative estimation of evapotranspiration from Tahe forest ecosystem, Northeast China.

QU Di, FAN Wen-yi, YANG Jin-ming, WANG Xu-peng

2014, 25(6):  1652-1660. 

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Evapotranspiration (ET) is an important parameter of agriculture, meteorology and hydrology research, and also an important part of the global hydrological cycle. This paper applied the improved DHSVM distributed hydrological model to estimate daily ET of Tahe area in 2007 using leaf area index and other surface data extracted TM remote sensing data, and slope, aspect and other topographic indices obtained by using the digital elevation model. The relationship between daily ET and daily watershed outlet flow was built by the BP neural network, and a water balance equation was established for the studied watershed, together to test the accuracy of the estimation. The results showed that the model could be applied in the study area. The annual total ET of Tahe watershed was 234.01 mm. ET had a significant seasonal variation. The ET had the highest value in summer and the average daily ET value was 1.56 mm. The average daily ET in autumn and spring were 0.30, 0.29 mm, respectively, and winter had the lowest ET value. Land cover type had a great effect on ET value, and the broadleaf forest had a higher ET ability than the mixed forest, followed by the needle leaf forest.

Soil microfauna diversity among Cunninghamia lanceolata plantations based on pyrosequencing. 

WANG Sheng-jie, LIU Jun-ang, HE Yuan-hao, ZHOU Guo-ying, TAN Yi-min, ZHOU Jie-chen

2014, 25(6):  1661-1668. 

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In order to study the function of soil microfauna and its responses to environmental changes, we used metagenome analyses of the 18S rDNA gene region to identify differences in microfauna diversity and community structure among fifteen soil samples belonging to five different Cunninghamia lanceolate plantations. The plantations were located in Youxian County, Hunan Province in central China. The trees in these plantations were of different ages (3, 13, and 26 years) and belonged to different ecological successions (first, second, and third successions). The total dataset comprised 94922 high quality sequences with an average length of 436 bp. The dominant taxonomic groups across all samples were Chordata, Annelida, Arthropoda, Nematoda, Rotifera and Platyhelminthes with each accounting for 60.8%, 24.0%, 7.4%, 3.6%, 1.5% and 1.2% of the sequences, respectively. There were significant differences in ACE index and Shannon index among the five plantations. The lowest diversity of soil microfauna was in the 13-year old plantation of the first ecological succession. The correlation analysis showed that both ACE and available potassium concentration were negatively correlated to the Chao1 index. However, there were no significant correlations between the Shannon, Simpson indices and the physicalchemical properties of soil. Overall, the Jaccard’s similarity coefficient was less than 0.4 among samples at each site, and significant differences were found among plantations.

 

Predicting the dispersal routes of alpine plant Pedicularis longiflora (Orobanchaceae) based on GIS and species distribution models.

YU Hai-bin1,2, ZHANG Yi-li1, LI Shi-cheng1,2, QI Wei1,2, HU Zhong-jun1,2

2014, 25(6):  1669-1673. 

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Pedicularis longiflora experienced extensive populations’ expansion in Quaternary, but the dispersal corridors were still unclear. According to the distribution patterns of haplotypes based on chloroplast DNA variation, the dispersal routes were predicted using species distribution models (MXENT) and the leastcost path method. Two possible dispersal routes from the southeastern part of Tibetan Plateau (TP) to interior were identified. The populations of East HimalayasHengduan Mountains region expanded to the western part of TP along with the Yarlung Zangbo River valley and the lower altitudes of the north slope of Himalayas. The expansion trend was also proved by SDMs based on two historical periods containing the Last Interglacial and the Last Glacial Maximum. In conclusion, identification of dis
persal routes is significant to the evolutionary history of alpine plants and the protection of special species in TP.

Genetic diversity of rhizobia isolated from shrubby and herbaceous legumes in Shenmu arid area, Shaanxi, China.

NIE Gang, CHEN Wei-min, WEI Ge-hong

2014, 25(6):  1674-1680. 

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Legume, with a strong resistance to the adverse environmental conditions, is one of pioneer plants in the desert region and plays an important role in the protection of the ecological environment. In this study, the symbiosis of rhizobia associating with shrubby and herbaceous legumes in Shenmu area, Shaanxi, China was characterized by the 16S rRNA PCR-RFLP and sequence analysis of involved genes. A total of 55 strains were isolated and purified, including 30 strains from the shrubby legume Amorpha fruticosa and Caragana microphylla, and 25 strains from herbaceous plants Astragalus adsurgens, Medicago sativa and Astragalus melilotoides. Results showed that there were 11 16S rRNA genotypes. The strains isolated from herbaceous legumes belonged to five genus including Mesorhizobium, Ensifer, Rhizobium, Phyllobacterium and Agrobacterium, which were very close related to M. huakuii, M. mediterraneum, M. robiniae, E. fredii, E. meliloti, R. indigoferae, R. radiobacter, P. ifriqiyense and Ag. tumefaciens through the phylogenetic analysis. The strains isolated from shrubby legumes belonged to Mesorhizobium, and they were very close related to M. huakuii and M. mediterraneum which were shared simultaneously by shrubby and herbaceous legumes. All of these indicated the choice of rhizobia by the two types of legumes in the arid area was different, and it might depend on the species of host plant and environmental factors.

Growth-promoting effect and triptolide production regulation of endophytic bacteria from Tripterygium wilfordii.

XU Jin-jiao1, SONG Ping1, FENG Lei2, HONG Wei1, WU Cheng-zhen1, LI Guo-qing1, ZHAO Xi-jun2, GE Heng-yi1

2014, 25(6):  1681-1687. 

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A total of twentythree endophytic bacteria were isolated from Tripterygium wilfordii, among which three strains were selected for further studying based on their capabilities of growthpromotion and wheat germination. All three isolated strains could produce phytohormone and siderophore, and LG3 and LJ10 strains were capable of dissolving phosphorus. Additionally, LG3 and LY4 strains were both proved to have nitrogenfixing function and 1-aminocyclopropane-1-carboxylate deaminase activity. Bacterial 16S rDNA sequence identification and homology analysis suggested that LG3 and LY4 strains belonged to the Enterobacter and LJ10 belonged to the Pantoea. The results of reinoculation experiment demonstrated that three endophytic bacteria could not only promote the growth of Tripterygium wilfordii, but also improve the triptolide contents of different organs significantly.

Changes of phenols and lignin contents in alfalfa leaf damaged by Odontothrips loti

WANG Xiao-shan, YANG Cheng-lin, WANG Sen-shan, HU Gui-xin

2014, 25(6):  1688-1692. 

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In order to investigate the changes of secondary metabolites content of alfalfa induced by thrips Odontothrips loti damaging, two alfalfa strains, one resistant to thrips (R-1) and the other susceptible to thrips (I-1), were chosen to measure the phenols and lignin contents of alfalfa leaves under infestation with thrips at different densities (0, 1, 3, 5, 7 thrips·branch^-1, and 0 thrip·branch^-1 as control). After infestation 7 days, the polyphenols, tannin and condensed tannin contents increased in both leaves of R-1 and I-1 with the increasing thrips density, the simple phenols content had no significant difference, while the lignin content increased significantly compared with the control. After infestation 14 days, the polyphenols, tannin, condensed tannin and lignin contents in both leaves of R-1 and I-1 increased obviously with the increasing thrips density, while the simple phenols content had no significant difference. The lignin content increased significantly, and was significantly higher under 7 thrips·branch^-1 than under the control. After infestation 21 days, the polyphenols, tannin, and lignin contents in both leaves of R-1 and I-1 increased obviously with the increasing thrips density, and were the highest under 7 thrips·branch^-1. Simple phenols content of I-1 strain was increased significantly, but that of R-1 strain had no significant change. The condensed tannin content in both leaves of R-1 and I-1 was not obvious compared with the control. Phenols and lignin contents in R-1 and I-1 leaves increased obviously after thrips infestation, and the polyphenols, tannin and lignin contents increased faster in R-1 strain than in I-1 strain. Thrips infestation had inductive effects on phenols and lignin contents of alfalfa, which could be used to evaluate the resistance of alfalfa.

Temporal and spatial variation of water requirement of winter wheat and its influencing factors in Henan Province, China.

SONG Ni, SUN Jing-sheng, WANG Jing-lei, CHEN Zhi-fang, LIU Zu-gui

2014, 25(6):  1693-1700. 

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Based on mean meteorological data of ten days in 17 observation stations from 1961 to 2012, the reference crop evapotranspiration was computed using PenmanMonteith formula recommended by FAO. The water requirement of winter wheat in Henan Province was calculated by adopting crop coefficients and the growth stage of winter wheat from the “National Irrigation Experiment Database”, and the temporal and spatial distribution, variation and affecting factors in recent 51 years were analyzed by means of timeseries analysis and gray relational grade analysis. The results showed that the average water requirement of winter wheat was 345-492 mm in Henan Province from 1961 to 2011, and it was lowest at Lushi station and highest at Mengjin station. The average water requirement of winter wheat was lowest from 1980 to 1989 and highest from 1961 to 1969 at most stations. The water requirement of winter wheat showed a tendency to increase with years at the 7 stations （Xinxiang, Luanchuan, Kaifeng, Xixia, Nanyang, Xinyang and Gushi), while it indicated a tendency to decline in the other 10 stations. The water requirement of winter wheat in North Henan was higher than in South Henan, and had a high span variation in West Henan. During the growing period of winter wheat, the average daily maximum and minimum temperatures showed a tendency to increase with years, while the average daily wind speed and relative humidity, and the sunshine hours had a tendency to decline. In Henan Province, the water requirement of winter wheat was mainly affected by the average daily maximum temperature and the sunshine hours, and least influenced by the average daily relative humidity.

Spatial variability and management zone of soil major nutrients in tobacco fields in Qiannan mountainous region.

WU De-chuan1, LUO Hong-xiang2, SONG Ze-min2, GUO Guang-dong2, CHEN Yong-an2, LI Yu-xiang2, JIANG Yu-ping3, LI Zhang-hai3

2014, 25(6):  1701-1707. 

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Spatial variability and management zone of soil major nutrients in tobacco fields in Qiannan mountainous region were analyzed using geostatistics and fuzzy cmean algorithm. Results indicated that the level of soil organic matter (OM) was moderate, and alkalytic nitrogen (AN), available phosphorus (AP) and available potassium (AK) were rich according to tobacco soil nutrient classification standards. Coefficients of variation (CV) of OM, AN, AP and AK were moderate. Contents of OM, AN, AP and AK fitted log-normal distributions. Correlation analysis showed moderate correlations between OM and AN, AP and AK. OM and AN were best described by Gaussian semivariogram models, while AP and AK were described by exponential models. The four nutrients displayed moderate spatial autocorrelation. There were significant differences among lag distances of four soil nutrients. OM, AN, AP and AK in the majority of studied regions varied at moderate to very rich levels, and deficiencies of OM, AN, AP and AK only accounted for 0.93%, 0.53%, 0.24% and 7.91% of the total studied region, respectively. Based on the results, the studied region was divided into two management zones (MZ), namely MZ1 and MZ2, accounting for 69.8% and 30.2% of the studied region respectively. The soil levels of OM, AN, AP and AK in MZ1 were significantly lower than those in MZ2 (P＜0.01).

Characteristics of the mineralization and transformation of autotrophic microbes-assimilated carbon in upland and paddy soils.

JIAN Yan1,2, GE Ti-da2, WU Xiao-hong2, ZHOU Ping2, WANG Jiu-rong2, YUAN Hong-zhao2, ZOU Dong-sheng1, WU Jin-shui2

2014, 25(6):  1708-1714. 

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In this study, the mineralization and decomposition of autotrophic microbe assimilated carbon (new carbon) and native organic carbon in three upland and three paddy soils in subtropical China were measured using the ¹⁴C-labelled tracer technique. The results showed that, during the 100-d incubation, the mineralization of the ‘new carbon’ displayed three stages: a rise in the first 10 days, a slowdown from 11-d to 50-d, and a stabilization stage after 50 d. The mineralization ratio of the ‘new carbon’ ranged between 8.0% and 26.9% and the mineralization rate ranged from 0.01 to 0.22 μg ¹⁴C·g^-1·d^-1 (0.01-0.22 μg ¹⁴C·g^-1·d^-1 in paddy soils and 0.01-0.08 μg ¹⁴C·g^-1·d^-1 in upland soils). However, the mineralization ratio and rate for native SOC were 1.55%-5.74% and 1.3-25.66 μg C·g^-1·d^-1, respectively. In the soil active C pools, the ¹⁴C-dissolved organic carbon (DOC) first rose by as much as 0.3 mg·kg^-1 in the early stages of incubation (0-10 d), decreased rapidly by 0.42 mg·kg^-1 from 10-30 d, and then declined gradually. The fluctuation of the ¹⁴C-microbial biomass carbon (MBC) differed from that of the ¹⁴C-DOC. At the beginning stage of the incubation (0-10 d), the ¹⁴C-MBC decreased rapidly, and then rapidly increased from 10 to 30 d, and the rate of increase reduced and was gradually stabilized after 40 d. The ¹⁴C-DOC/DOC renewal rate in the paddy soil was significantly higher than in the upland soil while the ¹⁴C-MBC/MBC renewal rate in the upland soil was significantly greater than in the paddy soil.

Spatial coupling characteristics of eco-environment quality and economic poverty in Lüliang area.

LI Jing-yi1，2，3, WANG Yan-hui1，2，3

2014, 25(6):  1715-1724. 

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It is one of the important strategies during the poverty alleviation to maintain a basic balance between the eco-environment and economic development in poor areas. Taking the whole 20 counties in Lüliang national contiguous special povertystricken areas and the surrounding 36 counties as multitype and multiscale typical study areas, the relationship between eco-environment quality and poverty in the povertystricken areas was explored in this paper. Firstly, the region’s ecological poverty index system was systematically built, and by integrated use of the subjective and objective weighting method, the ecological environment quality was evaluated in the perspective of natural environment. Then, the coupling coordination degree was calculated by coupling the ecologi-cal environment quality index and the average disposable income. Finally, the spatial variation was analyzed in detail respectively at provincial, city and county scales. Results showed that as a whole, the spatial autocorrelation coefficient of coupling coordination degree was relatively higher in the study area, and the coupling coordination degree in the eastern part was higher than that in the western part; the whole coupling coordination degree in Shanxi Province was slightly higher than in Shaanxi Province; the national poverty counties presented a state of recession, and their coordinated development degrees were far lower than that of nonnational poverty counties.

 

Effect of tillage patterns on the structure of weed communities in oat fields in the cold and arid region of North China.

ZHANG Li1, ZHANG Li-feng1,2, WU Dong-xia1, ZHANG Jun-jun1

2014, 25(6):  1725-1732. 

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In order to clarify the effects of tillage patterns on farmland weed community structure and crop production characteristics, based on 10 years location experiment with notillage, subsoiling and conventional tillage in the cold and arid region of North China, and supplementary experiment of plowing after 10 years notillage and subsoiling, oat was planted in 2 soils under different tillage patterns, and field weed total density, dominant weed types, weed diversity index, field weed biomass and oats yield were measured. The results showed that the regional weed community was dominated by foxtail weed (Setaira viridis); the weed density under longterm notillage was 2.20-5.14 times of tillage at different growing stages of oat, but there were no significant differences between conditional tillage and plowing after longterm notillage and subsoiling. Field weed Shannon diversity indices were 0.429 and 0.531, respectively, for sandy chestnut soil and loamy meadow soil under notillage conditions, and field weed biomass values were 1.35 and 2.26 times of plowing treatment, while the oat biomass values were only 2807.4 kg·hm^-2 and 4053.9 kg·hm^-2, decreased by 22.3% and 46.2%, respectively. The results showed that the weed community characteristics were affected by both tillage patterns and soil types. Longterm notillage farmland in the cold and arid region of North China could promote the natural evolution of plant communities by keeping more perennial weeds, and the plowing pattern lowered the annual weed density, eliminated perennial weeds with shallow roots, and stimulated perennial weeds with deep roots.

 

Effects of silicon on photosynthetic characteristics and activity of antioxidant enzymes in continuous-cropped cucumber seedlings.

ZHANG Ping-yan1, GAO Rong-guang1, YANG Feng-juan1,2,3, WANG Xiu-feng1,2,3, WEI Min1,2, SHI Qing-hua1,2, LI Yan1,2

2014, 25(6):  1733-1738. 

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The effects of spraying exogenous silicon (Si) (0, 1, 2, 3, 4 and 5 mmol·L^-1) on the growth, photosynthetic characteristics and activity of antioxidant enzymes in continuouscropped ‘Jinyan NO.4’ cucumber seedlings were studied. The results showed that with the application of 1-3 mmol·L^-1 Si, electrolyte leakage (EL) and malondialdehyde (MDA) content in leaves were significantly decreased, while the contents of chlorophyll a (Chl a), chlorophyll b (Chl b), carotenoids (Car), chlorophyll (a+b) and photosynthetic rate (P_n) in leaves were significantly improved, the activities of superoxidase (SOD), peroxidase (POD), catalase (CAT) and ascorbic acid peroxidase (APX) were significantly increased, and the plant height, stem diameter and dry mass accumulation of cucumber seedlings were promoted. Compared with the low Si concentrations, excessive Si (4-5 mmol·L^-1) resulted in higher EL and MDA, which were still lower than that in control, decreased the antioxidant enzymes activity and photosynthesis, and inhibited the growth of cucumber seedlings.  These findings indicated that exogenous Si could enhance the capacity of scavenging active oxygen species and improve photosynthesis, protect cucumber seedlings from the lipid peroxidation, and increase the resistance to continuouscropped cucumber obstacle.
 The optimal silicon concentration was 2 mmol·L^-1.

Effect of wheat and faba bean intercropping on root exudation of low molecular weight organic acids.

XIAO Jing-xiu1, ZHENG Yi1,2, TANG Li1

2014, 25(6):  1739-1744. 

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Pot experiment of wheat and faba bean intercropping was conducted and exudates from wheat and faba bean roots were collected at different growth stages. Low molecular weight organic acids (OA) in root exudates were examined by HPLC. The results showed that wheat and faba bean intercropping significantly increased the total amounts of OA exuded by roots. At tillering (57 d), booting (120 d) and filling stages (142 d), intercropping increased the total amounts of OA in wheat root exudates by 155%, 35.6% and 92.6% respectively, in comparison with that of monoculture wheat (MW). At branching (57 d) and filling stages (142 d), intercropping increased the total amounts of OA in faba bean root exudates by 87.4% and 38.7%, respectively, in comparison with that of monoculture faba bean (MF). Wheat and faba bean intercropping changed the types of OA exuded by roots. At tillering stage, lactic acid was identified in root exudates of intercropping wheat (IW), but not in that of MW. At jointing stage (98 d), citric acid was identified in root exudates of IW, but not in that of MW, and acetic acid was vice versa. At branching stage, acetic acid was identified in root exudates of intercropping faba bean (IF), but not in that of MF, and lactic acid was vice versa. At filling stage, lactic acid was identified in root exudates of IF, but not in that of MF. Wheat and faba bean intercropping increased the OA exudation rate of wheat. At booting stage, the exudation rates of citric and fumaric acid from IW were 179 and 184times as that of from MW, respectively. At filling stage, the exudation rate of lactic acid from IW was 2.53times as that from MW. In conclusion, wheat and faba bean intercropping increased the rate and total amount, and changed the types of OA exuded by roots.

Effects of controlled release nitrogen fertilizer application on dry matter accumulation and nitrogen balance of summer maize.

SI Dong-xia1,2, CUI Zhen-ling1, CHEN Xin-ping1, LU Fu-tang2

2014, 25(6):  1745-1751. 

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Effects of four controlled release nitrogen (N) fertilizers, including two kinds of polyester coated urea (Ncau, CRU) and phosphate (NhnP) and humic acid (NhnF) coated urea on assimilates accumulation and nitrogen balance of summer maize were investigated in a mode of onetime fertilization at the regional N recommended rate. The results showed that the N release curves of the two controlled release fertilizers CRU and Ncau matched well with the summer maize N uptake. Compared with the regional N recommendation rate, CRU could increase maize yield by 4.2% and Ncau could maintain the same yield level. CRU significantly increased the dry matter accumulation rate after anthesis of summer maize, but Ncau markedly increased the dry matter accumulated ratio before anthesis. Meanwhile, CRU could reduce the apparent N losses by 19 kg N·hm^-2 in the case of large precipitation. However, NhnF and NhnP caused the yield losses by 0.1%-8.9%, and enhanced the apparent N losses. Therefore, both CRU and Ncau with onetime fertilization could be a simplified alternative to the “total control, staging regulation” fertilization technique at the regional N recommended rate for summer maize production.

Effects of fertilizer application on greenhouse vegetable yield: A case study of Shouguang City.

LIU Ping1,2, LI Yan1,2, JIANG Li-hua1, LIU Zhao-hui2,3, GAO Xin-hao3, LIN Hai-tao1, ZHENG Fu-li1, SHI Jing1

2014, 25(6):  1752-1758. 

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Data collected from 51 representative greenhouses of Shouguang through questionnaire survey were analyzed to investigate the effect of chemical fertilizers on vegetable yield, relationship between application of organic manure and yield, and influence factors and evolution rule of fertilizer application rate. The results showed that averages of 3338 kg N·hm^-2, 1710 kg P₂O₅·hm^-2, 3446 kg K₂O·hm^-2 were applied to greenhouse vegetables annually in Shouguang, 6-14 times as that in the local wheatmaize rotation system. The application rates of chemical N, P, and K fertilizers accounted for about 35%, 49% and 42% of the total input. Increasing application of chemical fertilizers had no significant effect on vegetable yields, while organic manure input significantly increased the vegetable yields. With the increase of greenhouse cultivating time, no significant changes in the input of chemical N, P, and K fertilizers were observed in greenhouse vegetable production while organic manure input decreased significantly. Differences in vegetable species, planting pattern and cultivating time of greenhouses was one of the reasons for large variations in nutrient application rate. In recent more than ten years, organic manure nutrient input increased significantly, chemical N and P fertilizer input presented a downward trend, chemical K fertilizer input increased significantly, and the N/P/K ratio became more and more reasonable in greenhouse vegetable production in Shouguang.

Effect of swine manure application on nitrate leaching in winter wheat field in the Yellow River irrigation area of Ningxia, China.

YANG Shi-qi1,2, WANG Yong-sheng3, XIE Xiao-jun4, YANG Zheng-li1,2

2014, 25(6):  1759-1764. 

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The effect of swine manure application on nitrate nitrogen leaching was investigated in the Yellow River irrigation area of Ningxia. The field experiment was conducted with 3 Treatments: Traditional fertilization 225 kg N kg·hm^-2 without swine manure (CK), traditional fertilization with swine manure 4500 kg·hm^-2(T₁) and traditional fertilization with swine manure 9000 kg·hm^-2 (T₂). Nitrate nitrogen leaching rates were measured for 30, 60, 90 cm depth soil layers with a resin core absorption method. The results indicated that the nitrate leaching losses of T₁ and T₂ treatments ranged from 9.33 to 14.04 kg·hm^-2(pure nitrogen), which accounted for 4.2%-6.2% of applied nitrogen fertilizer. Compared to CK, the nitrate leaching losses of T₁ and T₂ increased by 2.6% and 2.1% at 30 cm depth, increased by 1.5% and decreased by 1.3% at 60 cm depth, decreased by 8.7% and increased by 4.0% at 90 cm depth, respectively. The difference did not reach statistical significance among CK and T₁ and T₂ in nitrate leaching loss at 30, 60 and 90 cm depths. However, there was a declining trend of nitrate leaching at deep soil layers of treatments. The key period of nitrate leaching loss was from spring reviving to early filling stage, which had a higher daily leaching loss than the average of the whole growth period, and accounted for 58.7%-75.3% of total leaching loss. Compared with CK, the yields of T₁ and T₂ increased by 9.3% and 12.5%, respectively.

Diversity of nitrogen-fixing microorganisms in biological soil crusts of copper mine wastelands.

ZHAN Jing, YANG Gui-de, SUN Qing-ye

2014, 25(6):  1765-1772. 

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Biological soil crusts play an important role in increasing the accumulation of organic matter and nitrogen in re-vegetated mining wastelands. The diversity of nitrogenfixing microorganisms in three types of biological soil crusts (algal crust, moss crust and algalmoss crust) from two wastelands of copper mine tailings were investigated by polymerase chain reactiondenaturing gradient gel electrophoresis, based on the nifH gene of diazotrophs, to investigate:  The diversity of nifH gene in the crusts of mine wastelands, and whether and how the nifH gene diversity in the crusts could be affected by the development of plant communities. The algal crust on the barren area displayed the highest nifH gene diversity, followed by the algalmoss crusts within vascular plant communities, and the moss crust displayed the lowest nifH gene diversity. The diversity of diazotrophs in algalmoss crust within vascular plant communities decreased with the increase of height and cover of vascular plant communities. No significant relationship was found between wasteland properties (pH, water content, contents of organic matter, nitrogen and phosphorus and heavy metal concentration) and nifH gene diversity in the crusts. Sequencing and phylogenetic analysis indicated that most nitrogenfixing taxa in the crusts of mine wastelands belonged to Cyanobacteria, especially nonheterocystous filamentous Cyanobacteria.

Assessment of aquatic ecosystem health based on principal component analysis with entropy weight: A case study of Wanning Reservoir

XIE Fei1, GU Ji-guang1, LIN Zhang-wen2

2014, 25(6):  1773-1779. 

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A new assessment method based on principal component analysis (PCA) and entropy weight for ecosystem health was applied to Wanning Reservoir, Hainan Island, China to investigate whether the new method could solve the overlap in weighting which existed in the traditional entropy weightbased method for ecosystem health. The results showed that, the ecosystem health status of Wanning Reservoir showed an improvement trend overall from 2010 to 2012; the means of ecosystem health comprehensive index (EHCI) in each year were 0.534, 0.617, 0.634 for 2010, 2011 and 2012 respectively, and the ecosystem health status was Ⅲ(medium),Ⅱ(good), and Ⅱ(good), respectively. In addition, the ecosystem health status of the reservoir displayed a weak seasonal variation. The variation of EHCI became smaller recently, showing that Wanning Reservoir tended to be relatively stable. Comparison of the weight of indices in the new and the traditional methods indicated that, the cumulative weight of the four indices (i.e., DO, COD, BOD₅ and NH₄⁺-N) had a stronger correlation of 0.382 for the traditional one than that (0.178) for the new method. It suggested the application of PCA with entropy could avoid the overlap in weighting effectively. In addition, the correlation analysis between the trophic status index and EHCI showed significant negative correlation (P＜0.05), indicating that the new method based on PCA with entropy weight could improve not only the assignment of weighting but also the accuracy of the results. The new method here is suitable for evaluating ecosystem health of the reservoir.

Effects of colistin sulfate residue on  soil microbial community structure.

MA Yi1, PENG Jin-ju1, CHEN Jin-jun1, FAN Ting-li1, SUN Yong-xue2

2014, 25(6):  1780-1784. 

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By using fumigation extraction and phospholipid fatty acid (PLFA) methods, the change of characteristics of soil microbial community structure caused by residue of colistin sulfate (CS) was studied. The results showed that the CS (w_CS≥5 mg·kg^-1) had a significant effect on the  microbial biomass carbon (MBC) and it was dosedependent where MBC decreased with the increase of CS concentration in soil. The  MBC in soil decreased by 52.1% when the CS concentration reached 50 mg·kg^-1. The total PLFA of soil in each CS treatment was significantly decreased during the sampling period compared with the control group and showed a dosedependent relationship. The soil microbial community structure and diversity in the low CS group (w_CS=0.5 mg·kg^-1) were not significantly different from the control group on 7th and 49th day. However, they were significantly different on 21st and 35th day especially in the high CS group (w_CS=50 mg·kg^-1). It was concluded that CS could change the structure of soil microorganisms and varied with time which might be caused by the chemical conversion and degradation of CS in soil.

Effects of calcification on respiratory quotient of cultured oyster Crassostrea gigas and its fouling animals.

REN Li-hua1,2,3, ZHANG Ji-hong1, FANG Jian-guang1, YAO Yong-feng1, ZHANG Yi-tao1, GAO Zhen-kun1, ZHANG Ming-liang4

2014, 25(6):  1785-1790. 

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Respiratory quotient (RQ) is one of the basic indices in physiology and energy metabolism of animals. When RQ is calculated, the amount of released CO₂ is typically used directly. But for calcifying marine organisms, calcification which can affect dissolved inorganic carbon (DIC) content in the water may cause methodological error to some extent, if it is ignored. In this paper, RQ and O/N of cultured oyster Crassostrea gigas and 3 marine fouling animal species (Mytilus edulis, Ciona intestinalis, Styela clava) were measured in the respiratory chamber to discuss the effect of calcification in RQ determination. The results demonstrated that calcification
rates of C. gigas and M. edulis were (56.37±14.85) and (17.95±7.21) μmol·g^-1·h^-1, respectively. (3.72±0.80) and (1.48±0.14) mg·L^-1 DIC in the water were correspondingly decreased, which occupied about (60.9±7.6)% and (39.9±5.7)% of respired CO2, respectively. RQ values of 4 animals were C. gigas 1.38±0.19, M. edulis 1.18±0.11, C. intestinalis 1.11±0.05 and S. clava 1.32±0.19, which agreed with the O/N values except C. intestinalis. Meanwhile, the uncorrected RQ values of C. gigas and M. edulis were 0.56±0.19 and 0.70±0.04, respectively, which were contrary to the O/N values. Therefore, it was obviously that calcification could result in a significant influence on the respiratory quotient by affecting water DIC concentration and should be accurately calculated in RQ measurement.

Gender differences of Pomacea canaliculata in cold tolerance. 

GUO Jing1, XU Wu-bing1, ZHANG Jia-en1,2,3, ZHAO Ben-liang1,2,3, LUO Ming-zhu1,2,3

2014, 25(6):  1791-1798. 

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In order to understand whether Pomacea canaliculata exhibits gender differences in cold resistance, the survival rate and supercooling point of both P. canaliculata females and males were investigated at low temperature. The changes in physiological and biochemical indices in the body of P. canaliculata before and after the winter were also examined. The results showed that the mean supercooling point of females was -6.83 ℃, which was significantly lower than that of the males (-6.26 ℃). With the arrival of winter, the amounts of bound water, glycerol, lipid and glycogen of P. canaliculata increased, while the amount of free water decreased. These indices except glycerol showed significant differences between males and females. More than 90% nonacclimated snails could survive at the temperature of 10 ℃ for 7 days. The survival rate of snails exhibited significant differences in sex and shell height after being transferred at 5 ℃ for 7 days. In addition, more females were recorded during field investigation. Based on these results, we concluded that the females had higher cold tolerance than the males. This finding would provide some references for further investigation of ecological adaptation, natural sex ratio and cold tolerance mechanisms of P. canaliculata.

Analysis of microsatellite loci from Bactrocera dorsalis based on transcriptome dataset.

WEI Dan-dan, SHI Jun-xia, ZHANG Xia-xuan, CHEN Shi-chun, WEI Dong, WANG Jin-jun

2014, 25(6):  1799-1805. 

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The transcriptome database of the oriental fruit fly, Bactrocera dorsalis (Hendel), was used to identify the functional gene-microsatellite (EST-SSR) markers and to analyze the SSR loci information. In total, 1890 EST-SSR loci were identified, of which, 1296 SSR sequences could be used for primer design. The average distribution frequency of the transcriptomic SSRs was 1/10.21 kb. However, these distribution frequencies varied considerably among different types of repeat SSRs. The trinucleotide repeat SSRs were found to have the highest frequency among the different types of repeat SSRs in the EST-SSR of B. dorsalis. Combining with other literatures, we inferred that the trinucleotide repeat SSRs were the most abundant EST-SSR in all of insects. In this study, 42 pairs of EST-SSR primers were designed and 18 pairs produced amplification bands of expected sizes. According to the results of other related literatures, the practices and challenges of strategy for SSR isolation from insect transcriptome databases were discussed, and the problems which should be considered in the screening of insect transcriptomic EST-SSR were put forward.


 

Application prospect about bioremediation of polychlorinated biphenyls-contaminated soil with immobilized microorganism technique: A review.

HU Jin-xing1, SU Xiao-mei1, HAN Hui-bo2, SHEN Chao-feng1, SHI Ji-yan1

2014, 25(6):  1806-1814. 

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As one type of the persistent organic pollutants, polychlorinated biphenyls (PCBs) are tremendously harmful to organisms. These compounds are easily absorbed onto soil particles and able to accumulate in soil after they are released into the environment. Bioremediation technology of PCBs-contaminated soils has become a research hotspot in recent years, and immobilized microorganism technique has high developing and applying value because of its unique advantages in environmental remediation. This paper reviewed the chief remediation technology of PCBs-contaminated soils and then analyzed the characteristics of immobilized microorganism technique and its research progress in remediation of organic polluted soil. Finally, the feasibility and problems of this technique in remediation of PCBs-contaminated soil were also discussed.

Nitrous oxide emissions from municipal solid waste landfills and its measuring methodology: A review.

JIA Ming-sheng, WANG Xiao-jun, CHEN Shao-hua

2014, 25(6):  1815-1824. 

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Nitrous oxide (N₂O) is one of three major greenhouse gases and the dominant ozonedepleting substance. Landfilling is the major approach for the treatment and disposal of municipal solid waste (MSW), while MSW landfills can be an important anthropogenic source for N₂O emissions. Measurements at labscale and fullscale landfills have demonstrated that N₂O can be emitted in substantial amounts in MSW landfills; however, a large variation in reported emission values exists. Currently, the mechanisms of N₂O production and emission in landfills and its contribution to global warming are still lack of sufficient studies. Meanwhile, obtaining reliable N₂O fluxes data in landfills remains a question with existing insitu measurement techniques. This paper summarized relevant literature data on this issue and analyzed the potential production and emission mechanisms of N₂O in traditional anaerobic sanitary landfill by dividing it into the MSW buried and the cover soil. The corresponding mechanisms in nitrogen removal bioreactor landfills were analyzed. Finally, the applicability of existing insitu approaches measuring N₂O fluxes in landfills, such as chamber and micrometeorological methods, was discussed and areas in which further research concerning N₂O emissions in landfills was urgently required were proposed as well.

Seagrass ecosystems: Contributions to and mechanisms of carbon sequestration.

2014, 25(6):  1825-1832. 

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The ocean’s vegetated habitats, in particular seagrasses, mangroves and salt marshes, each capture and store a comparable amount of carbon per year, forming the Earth’s blue carbon sinks, the most intense carbon sinks on the planet. Seagrass meadows, characterized by high primary productivity, efficient water column filtration and sediment stability, have a pronounced capacity for carbon sequestration. This is enhanced by low decomposition rates in anaerobic seagrass sediments. The carbon captured by seagrass meadows contributes significantly to the total blue carbon. At a global scale, seagrass ecosystems are carbon sink hot spots and have profound influences on the global carbon cycle. This importance combined with the many other functions of seagrass meadows places them among the most valuable ecosystems in the world. Unfortunately, seagrasses are declining globally at an alarming rate owing to anthropogenic disturbances and climate change, making them also among the most threatened ecosystems on the Earth. The role of coastal systems in carbon sequestration has received far too little attention and thus there are still many uncertainties in evaluating carbon sequestration of global seagrass meadows accurately. To better assess the carbon sequestration of global seagrass ecosystems, a number of scientific issues should be considered with high priorities: 1) more accurate measurements of seagrass coverage at national and global levels; 2) more comprehensive research into species and locationspecific carbon sequestration efficiencies; 3) in-depth exploration of the effects of human disturbance and global climate change on carbon capture and storage by seagrass ecosystems.

The establishment, development and application of classification approach of freshwater phytoplankton based on the functional group: A review.

YANG Wen, ZHU Jin-yong, LU Kai-hong, WAN Li, MAO Xiao-hua

2014, 25(6):  1833-1840. 

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Appropriate schemes for classification of freshwater phytoplankton are prerequisites and important tools for revealing phytoplanktonic succession and studying freshwater ecosystems. An alternative approach, functional group of freshwater phytoplankton, has been proposed and developed due to the deficiencies of Linnaean and molecular identification in ecological applications. The functional group of phytoplankton is a classification scheme based on autoecology. In this study, the theoretical basis and classification criterion of functional group (FG), morphofunctional group (MFG) and morphologybased functional group (MBFG) were summarized, as well as their merits and demerits. FG was considered as the optimal classification approach for the aquatic ecology research and aquatic environment evaluation. The application status of FG was introduced, with the evaluation standards and problems of two approaches to assess water quality on the basis of FG, index methods of Q and Q-R, being briefly discussed.