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Leguminosae plants play a key role in affecting soil physical-chemical and biological properties during grassland succession after farmland abandonment in the Loess Plateau,China 被引量:1
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作者 SUN Lin YU Zhouchang +5 位作者 TIAN Xingfang ZHANG Ying SHI Jiayi FU Rong LIANG Yujie ZHANG Wei 《Journal of Arid Land》 SCIE CSCD 2023年第9期1107-1128,共22页
Leguminosae are an important part of terrestrial ecosystems and play a key role in promoting soil nutrient cycling and improving soil properties.However,plant composition and species diversity change rapidly during th... Leguminosae are an important part of terrestrial ecosystems and play a key role in promoting soil nutrient cycling and improving soil properties.However,plant composition and species diversity change rapidly during the process of succession,the effect of leguminosae on soil physical-chemical and biological properties is still unclear.This study investigated the changes in the composition of plant community,vegetation characteristics,soil physical-chemical properties,and soil biological properties on five former farmlands in China,which had been abandoned for 0,5,10,18,and 30 a.Results showed that,with successional time,plant community developed from annual plants to perennial plants,the importance of Leguminosae and Asteraceae significantly increased and decreased,respectively,and the importance of grass increased and then decreased,having a maximum value after 5 a of abandonment.Plant diversity indices increased with successional time,and vegetation coverage and above-and below-ground biomass increased significantly with successional time after 5 a of abandonment.Compared with farmland,30 a of abandonment significantly increased soil nutrient content,but total and available phosphorus decreased with successional time.Changes in plant community composition and vegetation characteristics not only change soil properties and improve soil physical-chemical properties,but also regulate soil biological activity,thus affecting soil nutrient cycling.Among these,Leguminosae have the greatest influence on soil properties,and their importance values and community composition are significantly correlated with soil properties.Therefore,this research provides more scientific guidance for selecting plant species to stabilize soil ecosystem of farmland to grassland in the Loess Plateau,China. 展开更多
关键词 secondary succession LEGUMINOSAE plant diversity plant community composition soil physical-chemical properties soil biological properties
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Using classification assignment rules to assess land-use change impacts on forest biodiversity at local-to-national scales 被引量:1
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作者 Kathrin Affeld Susan K. Wiser +1 位作者 Ian J. Payton Miquel DeCaceres 《Forest Ecosystems》 SCIE CSCD 2018年第2期162-176,共15页
Background: Ecosystem representation is one key component in assessing the biodiversity impacts of land-use changes that will irrevocably alter natural ecosystems. We show how detailed vegetation plot data can be use... Background: Ecosystem representation is one key component in assessing the biodiversity impacts of land-use changes that will irrevocably alter natural ecosystems. We show how detailed vegetation plot data can be used to assess the potential impact of inundation by a proposed hydroelectricity dam in the Mokihinui gorge, New Zealand, on representation of natural forests. Specifically we ask: 1) How well are the types of forest represented Locally, regionally, and nationally; and 2) How does the number of distinct communities (i.e. beta diversity) in the target catchment compare with other catchments nationally? Methods: For local and regional comparisons plant species composition was recorded on 45 objectively located 400 m2 vegetation plots established in each of three gorges, with one being the proposed inundation area of the Mokihinui lower gorge. The fuzzy classification framework of noise clustering was used to assign these plots to a specific alliance and association of a pre-existing national-scale classification. NationaLly, we examined the relationship between the number of alliances and associations in a catchment and either catchment size or the number of plots per catchment by fitting Generalised Additive Models. Results: The four alliances and five associations that were observed in the Mokihinui lower gorge arepresent in the region but limited locally. One association was narrowly distributed nationally, but is the mostfrequent association in the Mokihinui lower gorge; inundation may have consequences of national importance to its long-term persistence. That the Mokihinui lower gorge area had nearly twice as many plots that could not be assigned to pre- existing alliances and associations than either the Mokihinui upper or the Karamea lower gorges and proportionally more than the national dataset emphasises the compositional distinctiveness of this gorge. These outlier plots in the Mokihinui lower gorge may be unsorted assemblages of species or reflect sampling bias or that native- dominated woody riparian vegetation is rare on the landscape. At a national scale, the Mokihinui catchment has a higher diversity of forest alliances and associations (i.e. beta-diversity) than predicted based on catchment size and sampling intensity. Conclusions: Our analytical approach demonstrates one transparent solution to a common conservation planning problem: assessing how well ecosystems that will be destroyed by a proposed land-use change are represented using a multi-scale spatial and compositional framework. We provide a useful tool for assessing potential consequences of land-use change that can help guide decision making. 展开更多
关键词 BETA-DIVERSITY Biodiversity conservation Environmental impacts Ecosystem representation Hydroelectricity dams Land-use change National vegetation classification Noise clustering New Zealand NVS databank plant community composition
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Biotic and abiotic factors determine species diversity-productivity relationships in mountain meadows 被引量:3
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作者 Jia-Jia Liu Yong Xu +2 位作者 You-Xia Shan Kevin S.Burgess Xue-Jun Ge 《Journal of Plant Ecology》 SCIE CSCD 2021年第6期1175-1188,共14页
Aims Species diversity–productivity relationships in natural ecosystems have been well documented in the literature.However,biotic and abiotic factors that determine their relationships are still poorly understood,es... Aims Species diversity–productivity relationships in natural ecosystems have been well documented in the literature.However,biotic and abiotic factors that determine their relationships are still poorly understood,especially under future climate change scenarios.Methods Randomized block factorial experiments were performed in three meadows along an elevational gradient on Yulong Mountain,China,where open-top chambers and urea fertilizer manipulations were used to simulate warming and nitrogen addition,respectively.Besides species diversity,we measured functional diversity based on five traits:plant height,specific leaf area and leaf carbon,nitrogen and phosphorus contents.Several abiotic factors relating to climate(air temperature and precipitation)and soil chemistry(pH,organic carbon concentration,total nitrogen concentration and phosphorus concentration)were also measured.Generalized linear mixed-effect models were used to investigate the responses of species diversity and productivity to elevation,warming,nitrogen addition and their interactions.The effects of biotic and abiotic factors on the direction and magnitude of their relationship were also assessed.Important Findings Species diversity decreased with increasing elevation and declined under warming at mid-elevation,while productivity decreased with increasing elevation.Functional richness,maximum air temperature,soil pH and their interactions showed strong but negative influences on the species diversity–productivity relationship;the relationship shifted from positive to neutral and then to slightly negative as these sources of variation increased.Our study highlights the negative effects of short-term warming on species diversity and emphasizes the importance of both biotic and abiotic drivers of species diversity–productivity relationships in mountain meadow communities. 展开更多
关键词 climate warming ELEVATION functional traits nitrogen addition plant community composition soil pH Yulong Mountain
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