How afforestation affects the water cycle in drylands: A process‐based comparative analysis

Schwärzel, Kai; Zhang, Lulu; Montanarella, Luca; Wang, Yanhui; Sun, Ge

doi:10.1111/gcb.14875

Cited by 146 publications

(70 citation statements)

References 73 publications

(118 reference statements)

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“…Consequently, we herein examined artificial forests of different ages of Robinia pseudoacacia, which are the main types of afforestation in the arid and semi-arid regions of the Loess Plateau in China [39]. We describe understory vegetation stand compotation using species diversity, which is measured across a vertical profile [40].…”

Section: Introductionmentioning

confidence: 99%

Understory Vegetation Composition and Stand Are Mainly Limited by Soil Moisture in Black Locust Plantations of Loess Plateau

Wu¹,

Gao

Zhang

et al. 2021

Forests

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Forestry eco-engineering programs in China occupy 721.77 × 104 km2, among which plantations have a pivotal role in protecting the fragile ecological environment. Reforestation understory is often ignored because of the simple vertical structure. The importance of light in understory has been discovered. However, how other ecology factors (e.g., soil properties and geographical factors) influence understory composition and stratification remain unclear. In this study, we investigated the effects of understory composition and stratification on environmental factors in black locust plantations. We used systematic clustering analysis based on plant average height to describe understory stratification. The finding of this study was that black locust plantation understory consisted of three levels: (I) a low herbaceous layer (<80 cm), (II) a high herbaceous layer (80–130 cm), and (III) a shrub layer (>130 cm). Redundancy analysis indicated that soil moisture content and soil total phosphorus content were the largest contributors to the variation in understory vegetation composition. Soil moisture content, altitude, and soil organic carbon content were the largest contributors to the variation in understory stratification. Overall, by analyzing understory stratification and the relationship between soil and geographical factors, we gained a more comprehensive understanding of the interaction between understory and the microenvironment. This is especially important for reforestation management that maintains understory ecology function in the face of global climate change.

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Section: Introductionmentioning

confidence: 99%

Understory Vegetation Composition and Stand Are Mainly Limited by Soil Moisture in Black Locust Plantations of Loess Plateau

Wu¹,

Gao

Zhang

et al. 2021

Forests

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“…However, quantifying impacts of LUCC remain among the more challenging problems in hydrology (Acharya et al, 2018; Blöschl, 2019; Owuor et al, 2016; Stonestrom et al, 2009). This is especially the case in arid and semiarid areas (accounting for one third of the continental area globally), where groundwater is usually the exclusive water resource and groundwater diffuse recharge is sensitive to LUCC (Crosbie et al, 2010; Schwärzel et al, 2020). Unfortunately, recharge assessments in arid environments are prone to greater difficulty than in humid areas owing to the need for accurate measurement of very low fluxes.…”

Section: Introductionmentioning

confidence: 99%

Impact of Afforestation on Atmospheric Recharge to Groundwater in a Semiarid Area

et al. 2020

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While the global forest area is generally decreasing, various afforestation projects have been implemented, including the large-scale Three-North Afforestation Program (TNAP) and the Conversion of Cropland to Forest Program in China, under which 0.63 million square kilometers of trees have been planted. The large-scale land use and cover change (LUCC) would affect the redistribution of precipitation and change the water cycle, especially groundwater recharge. The chloride mass balance (CMB) between precipitation and soil water/groundwater is the most widely used technique to estimate the recharge in arid and semiarid areas. However, in the case of decreased recharge following LUCC, a new equilibrium of water and chloride flux is not easily reached and the identification of steady state is the premise to use CMB. This study provided a method to assess the steady state by comparing the history of LUCC and chloride cumulative age at sampling depth and by checking the breaks in the slope of the line for cumulative chloride and soil water. The case study in the Mu Us Sandy Land, affected by the TNAP, shows that soil profiles beneath sparse grassland, shrubland, and woodland have reached steady state. However, new equilibrium has not been reached in the soil profiles beneath the dense shrubland. The estimated recharge rates beneath the plantations represent reductions from 33% to >90% relative to the surrounding bare sandy land (50-54 mm/year). The results highlight the unfavorable effects of some afforestation and ecological rehabilitation approaches in arid and semiarid areas on regional groundwater resources.

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“…Drylands cover more than 40% of the Earth's land surface and 72% of them are in undeveloped regions that are home to 2.5 billion people, or 38% of the world's total population (Huang, Yu, Dai, Wei, & Kang, 2017). Water scarcity impedes the sustainable development of agriculture, economy and society in global drylands (Schwaerzel, Zhang, Montanarella, Wang, & Sun, 2020;Vohland & Barry, 2009).…”

Section: Introductionmentioning

confidence: 99%

Impact of land management practices on water use strategy for a dryland tree plantation and subsequent responses to drought

Zhao

2020

Land Degrad Dev

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Extreme droughts, of increased frequency due to climate change, are threatening the sustainability of dryland plantations worldwide by exacerbating water scarcity. Here we aim to disentangle the impacts of combinations of terracing and mulching on water use strategy and their response to extreme droughts in a rainfed jujube (Ziziphus jujuba Mill.) plantation on the semiarid Loess Plateau of China, using 3-year in situ field observations. Pruned jujube branches and maize straw were mulched on halfmoon terraces to form two combined treatments, referred to as JBT and MST, respectively. The efficacy of these two combinations on the water use strategy of jujube

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How afforestation affects the water cycle in drylands: A process‐based comparative analysis

Cited by 146 publications

References 73 publications

Understory Vegetation Composition and Stand Are Mainly Limited by Soil Moisture in Black Locust Plantations of Loess Plateau

Understory Vegetation Composition and Stand Are Mainly Limited by Soil Moisture in Black Locust Plantations of Loess Plateau

Impact of Afforestation on Atmospheric Recharge to Groundwater in a Semiarid Area

Impact of land management practices on water use strategy for a dryland tree plantation and subsequent responses to drought

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