Zhaoyu Peng scite author profile

Aboveground net primary productivity (ANPP) of grassland influenced by both environmental factors and structural plant community attributes indicates its growth situation and ability to provide ecosystem services. However, previous works have focused on the effects of either environmental factors or plant community attributes on ANPP, which makes it difficult to quantify the effect pathways of environmental factors and plant community attributes on ANPP. In our study, we took a temperate grassland in the agropastoral ecotone of northern China as the research area and quantified the effects of environmental factors and plant community attributes on grassland ANPP with a structural equation model, together with correlation and partial correlation analyses. We found that growing season precipitation is the most critical factor for grassland ANPP, and its direct effect (standardized direct positive effect, SDE = 0.401, p < 0.05) on ANPP was the main path. Temperature affected ANPP directly (SDE = 0.230, p < 0.05) and indirectly (standardized indirect positive effect SIE = 0.110, p < 0.05) mainly through community attributes in the area, such as tiller number and cover. The increase in soil sand content reduced tiller number and further affected ANPP (SIE = 0.011, p < 0.05). Human population influenced ANPP through species diversity (SIE = −0.059, p < 0.05), and the increase in livestock number worked on ANPP by degrading the soil. Our results imply that improving grassland community attributes, such as maintaining species diversity and increasing vegetation coverage, will effectively mitigate the negative effects of climate change.

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Root system plays an important role in responses of plant to drought in the steppe of China

Jiang

Liu

Peng

et al. 2021

Land Degrad Dev

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In the temperate grasslands of northern China, there exists a large range of soil texture. However, previous studies have mainly focused on the effect of climate water deficit on plant traits and have paid little attention to the effect of soil water deficit because grasses tend to use rainfall water directly. We measured eight droughtrelated plant traits of 12 widely distributed perennial species in the temperate grassland in northern China and examined drought-related plant traits under different aridity index ([ET 0 − P]/ET 0 ) and soil sand/clay ratio. The 12 species were categorized into three functional groups: fibrous-rooted C 4 species, fibrous-rooted C 3 species, and tap-rooted C 3 species. Our results showed that increasing climate drought had influence on all selected functional groups, and the influence on aboveground biomass and height was especially large on fibrous-rooted C 3 species. Coarse soil led to increased root length of fibrous-rooted C 3 and tap-rooted C 3 species. Our results imply that root system can be important to plant responses under drought, and soil texture can have influence on plant, though most of the traits show resistance to coarser soil.

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Decline in stability of forest productivity in the tropics as determined by canopy water content

Liu¹,

Liu²,

Adalibieke³

et al. 2023

iScience

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Zhaoyu Peng

Effect paths of environmental factors and community attributes on aboveground net primary productivity of a temperate grassland

Root system plays an important role in responses of plant to drought in the steppe of China

Decline in stability of forest productivity in the tropics as determined by canopy water content

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