Changes in Species Diversity Patterns and Spatial Heterogeneity during the Secondary Succession of Grassland Vegetation on the Loess Plateau, China

Sun, Caili; Chai, Zongzheng; Liu, Guobin; Xue, Sha

doi:10.3389/fpls.2017.01465

Cited by 35 publications

(24 citation statements)

References 45 publications

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“…Many studies on the spatial distribution and drivers of woody plants are available. In particular, the effects of abiotic factors, such as topography (Svenning, 1999;Wangda and Ohsawa, 2006;Lan et al, 2011), light (Han et al, 2017;Gallé et al, 2018), and soil (Song et al, 2015;Gao et al, 2017), and biological factors, such as competition (Zhu et al, 2015(Zhu et al, , 2018 and species succession (Mi et al, 2016;Sun et al, 2017), on woody plants have been investigated. In the present study, different woody plant species had distinct specific preferences among various plant community types in the temperate mountain forest.…”

Section: Discussionmentioning

confidence: 99%

Community Preferences of Woody Plant Species in a Heterogeneous Temperate Forest, China

Chen

Shao

et al. 2020

Front. Ecol. Evol.

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Diversified community types provide different microhabitats for plant growth. However, whether the distribution of species is random distribution or ecological specialization within different plant community types remains to be elucidated. Here, five 1 ha (100 m × 100 m) plots with different communities were established in a temperate forest. We examined community structure differences by non-metric multidimensional scaling and betadisper test, analyzed the species-community relationships by correlation network approach, and then the examined distribution preferences of woody plant species by torus-translation test. Results showed that the abundance, richness, and species composition of woody plants exhibited significant differences among the five communities. The specialization index showed that 42.83% of the species had the characteristics of distribution specialization for different communities. The torustranslation test showed that 85 species (86.74%) were positively associated with specific community. Our findings suggested that the distribution of woody plants species among different plant community types is not random but specialization. Different woody plant species have distinct specific preferences among various plant community types in temperate mountain forest. These findings provide new insights into the biodiversity conservation of woody plant species in temperate deciduous broad-leaved forests and indicate the potential importance of community partitioning for the maintenance of woody plant diversity.

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Section: Discussionmentioning

confidence: 99%

Community Preferences of Woody Plant Species in a Heterogeneous Temperate Forest, China

Chen

Shao

et al. 2020

Front. Ecol. Evol.

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“…Chao et al (2014) applied a uniform approach to sample‐ and individual‐based data to estimate the first three Hill numbers to characterize the diversity of a species assemblage: species richness (q = 0), the Shannon entropy index (Shannon diversity, q = 1), and the anti‐Simpson concentration (Simpson diversity, q = 2). These proposed estimators are accurate for both sparse and short‐range extrapolations (Sun et al, 2017).…”

Section: Methodsmentioning

confidence: 99%

“…Sparse and extrapolated curves and Hill numbers were used to compare the plant diversity patterns (Sun et al, 2017). We estimated plant diversity (species richness and Shannon and Simpson diversities) as the mean of 200 replicates with a 95% confidence interval (Chao, Chiu, & Jost, 2014).…”

Section: Methodsmentioning

confidence: 99%

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Effects of vegetation restoration on soil nutrients, plant diversity, and its spatiotemporal heterogeneity in a desert–oasis ecotone

Deng

Huang

et al. 2020

Land Degrad Dev

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Vegetation restoration has been proposed as an effective measure for rehabilitating degraded land and slowing desertification in arid regions. However, the spatial variation in soil quality and plant diversity following vegetation restoration remains unclear. This study was designed to explore soil nutrient dynamics and how soil nutrients affect plant diversity and spatial heterogeneity after shrub restoration. We assessed the effect of Haloxylon ammodendron (C.A.Mey.) Bunge (which has been planted over 30 years) on the soil nutrients and plant diversity in a desert–oasis ecotone in Minqin County, Gansu, China, using geostatistics, beta diversity and rarefaction analyses, and Hill number extrapolation. Soil nutrients, including soil organic matter, total nitrogen, and alkali nitrogen, increased significantly after H. ammodendron planting. Species richness gradually increased from 1–5 years to 10–20 years after H. ammodendron was planted but then decreased at 20–30 years. The largest differences in plant composition were observed at 15 and 20 years. Plant diversity increased in the whole 30 years after shrub planting, increasing in the first 25 years and then decreasing at 26–30 year stage. The maximum coefficient of determination for the spatial heterogeneity model fit was 0.84 (25 years). The spatial heterogeneity in vegetation decreased with increasing soil available K content at 1–10 years. Our results suggest that planting shrubs can improve soil conditions and plant species diversity in desert–oasis ecotones and soil nutrients have a strong influence on plant diversity patterns and spatial heterogeneity following vegetation restoration.

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“…Fragmentation always leads to the heterogeneity of cropland, which is an important property that describes the variability of the observed surface properties in space (Chen et al, 2012). Because the cropland heterogeneity affects biodiversity or the environmental risks in crop fields (Martin et al, 2020;Sun et al, 2017a), it becomes a hot topic for researchers to focus on. There was some conclusion that different land uses with its heterogeneity could lead to a widespread decline in cropland biodiversity (Benton, Vickery & Wilson, 2003;Zhou et al, 2008).…”

Section: Introductionmentioning

confidence: 99%

Cropland heterogeneity changes on the Northeast China Plain in the last three decades (1980s–2010s)

Liu

Dong

et al. 2020

PeerJ

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The Northeast China Plain is one of the major grain-producing areas of China because of its fertile black soil and large fields adapted for agricultural machinery. It has experienced some land-use changes, such as urbanization, deforestation, and wetland reclamation in recent decades. A comprehensive understanding of these changes in terms of the total cropping land and its heterogeneity during this period is important for policymakers. In this study, we used a series of cropland products at the 30-m resolution for the period 1980–2015. The heterogeneity for dominant cropland decreased slowly over the three decades, especially for the large pieces of cropland, showing a general trend of increased cropland homogeneity. The spatial patterns of the averaged heterogeneity index were nearly the same, varying from 0.5 to 0.6, and the most heterogeneous areas were mainly located in some separate counties. Cropland expansion occurred across most of Northeast China, while cropland shrinking occurred only in the northern and eastern sections of Northeast China and around the capital cities, in the flat areas. Also, changes in land use away from cropland mainly occurred in areas with low elevation (50–200 m) and a gentle slope (less than 1 degree). The predominant changes in cropland were gross gain and homogeneity, occurring across most of the area except capital cities and boundary areas. Possible reasons for the total cropland heterogeneity changes were urbanization, restoration of cropland to forest, and some government land-use policies. Moreover, this study evaluates the effectiveness of cropland policies influencing in Northeast China.

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Changes in Species Diversity Patterns and Spatial Heterogeneity during the Secondary Succession of Grassland Vegetation on the Loess Plateau, China

Cited by 35 publications

References 45 publications

Community Preferences of Woody Plant Species in a Heterogeneous Temperate Forest, China

Community Preferences of Woody Plant Species in a Heterogeneous Temperate Forest, China

Effects of vegetation restoration on soil nutrients, plant diversity, and its spatiotemporal heterogeneity in a desert–oasis ecotone

Cropland heterogeneity changes on the Northeast China Plain in the last three decades (1980s–2010s)

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