Forestation does not necessarily reduce soil erosion in a karst watershed in southwestern China

Willner

Journal of Biogeography

et al. 2022

Section: Topography – Fine‐scale Controls Of the Forest–steppe Mosaicmentioning

confidence: 99%

Central European forest–steppe: An ecosystem shaped by climate, topography and disturbances

Willner

Journal of Biogeography

et al. 2022

“…Because of the connection of underground cracks in karst areas, water and soil can easily reach out, resulting in a lack of water for plants (Liu et al, 2021). At the same time, there were more cracks in the limestone areas than in the dolomite areas (Feng et al, 2021). This phenomenon makes limestone areas more prone to water scarcity by plants, which exacerbates soil erosion in limestone areas (Liu et al, 2019).…”

Section: Discussionmentioning

confidence: 99%

Lithology‐mediated soil erodibility characteristics after vegetation restoration in the karst region of Southwest China

Liang,

Wang,

et al. 2023

Land Degrad Dev

Ecological restoration projects have significantly increased global vegetation cover and reduced soil erosion. However, it is very challenging to clarify the complex soil erosion mechanisms of limestone and dolomite in the southwest karst region and to identify the key factors affecting erosion. The study site has a subtropical monsoon climate with precipitation concentrated during the rainy season from May to September. In this study, four plantation restoration measures with a recovery time of approximately 16 years were selected, which included arbor forest, orchard, grassland, and cropland (control). Soil physical–chemical properties and soil erodibility K values were used to evaluate the soil erosion characteristics. The results showed that both limestone and dolomite exhibited lower soil bulk density as well as higher capillary porosity, and soil water‐stable aggregates after revegetation. The limestone and dolomite K values were reduced by 12%–15% and 15%–17%, respectively. However, the K value of limestone was 17.9% higher than that of dolomite, indicating that dolomite exhibited a higher stability. Through redundancy analysis and structural equation modeling, revegetation was found to reduce soil erosion by influencing the soil particle composition. The silt was the key factor influencing soil erosion, accounting for 84.4% and 78.2% of the variation in the limestone and dolomite K values, respectively. These findings suggest that vegetation restoration enhances soil erosion resistance; however, the effectiveness of restoration is controlled by the lithology in the southwest karst region. These findings provide a reference for soil and water management and vegetation restoration.

Progress in Physical Geography: Earth and Environment

“…For example, the importance of rock in the composition and dynamics of karst vegetation has been clarified (Liu et al, 2019; Zhu et al, 2021), and the classic climate–vegetation relationships have been updated. Furthermore, it has been proved that vegetation restoration activities do not necessarily reduce soil erosion in karst regions because climatic drought events threaten the sustainability of planting and its ability to conserve soil (Feng et al, 2021). Crop yield from an upper slope position would be greatly reduced by soil erosion (Liang et al, 2021), and this type of area may be one where forest planting activities such as those carried out by the Grain for Green project should first be applied.…”

Section: From Karst Geomorphology To Critical Zone Sciencementioning

confidence: 99%

Jennings’Karst(1971, MIT Press) and current critical zone science

Dai

2020

Karst, written by J.N. (Joseph Newell) Jennings in the series entitled An Introduction to Systematic Geomorphology, provided a systematic introduction to the geomorphological features of karst and the processes by which it is formed. The many distinctive features of karst geomorphology are formed by the unusual solubility of the bedrock. Understanding the special nature of karst geomorphology is an important foundation for current critical zone studies that are aimed at comprehending the sophisticated linkage between lithosphere, hydrosphere, biosphere and atmosphere in a karst region.