How revegetation reinforces soil at early stage of restoration: A 6-year field study in southwest China

IF 2.6 3区农林科学 Q1 AGRONOMY Journal of Plant Nutrition and Soil Science Pub Date : 2024-03-04 DOI:10.1002/jpln.202300236

Jinqi Zhu, Yujie Wang, Bofu Zheng, Eddy J. Langendoen, Yunqi Wang

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Abstract

Background and aims

Restoring vegetation on hillslopes has been found to increase soil strength, thereby reducing the risk of soil erosion and shallow landslides. However, limited information is available on the temporal changes in root biomechanical traits and increased soil shear strength related to vegetation growth following restoration with different species.

Methods

In 2012, Symplocos setchuensis, Buxus megistophylla, and Cynodon dactylon were replanted in a forest gap in Jinyun Mountain, Beibei District, China, and studied over a 6-year period. We measured root traits (root tensile strength, Young's modulus, cellulose content, and root density) and soil traits (cohesion and internal friction angle) at two soil depths (0–20 and 20–40 cm) for undisturbed and reconstituted samples.

Results

S. setchuensis was found to have the highest tensile strength and resistance to failure for root diameters <2 mm. With elapsed time, tensile strength and cellulose content decreased. Cohesion and root mechanical reinforcement of topsoil generally increased with time (+10% per year). Root chemical and mechanical effects contributed approximately 50% to soil reinforcement. C. dactylon had the fastest growth rate and reinforced the topsoil soil rapidly, whereas S. setchuensis exhibited a consistent increase in soil reinforcement during the study period and provided more deep roots that could reinforce subsoil.

Conclusion

Chemical and mechanical effects almost equally contributed to soil reinforcement. Although the relative contributions varied for different species, the variation in each contribution sheds new light on the sustainable use of vegetation for mitigating shallow landslides in mountainous areas.

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植被重建如何在恢复初期加固土壤：中国西南地区为期 6 年的实地研究

背景和目的人们发现，在山坡上恢复植被可以增加土壤强度，从而降低土壤侵蚀和浅层滑坡的风险。方法 2012 年，我们在中国北碚区缙云山的一个林间空地上重新种植了梭梭、巨紫荆和皂荚，并对其进行了为期 6 年的研究。我们测量了未扰动样本和重组样本在两个土壤深度（0-20 厘米和 20-40 厘米）的根性状（根抗张强度、杨氏模量、纤维素含量和根密度）和土壤性状（内聚力和内摩擦角）。随着时间的推移，抗拉强度和纤维素含量下降。表层土壤的凝聚力和根系机械加固力通常会随着时间的推移而增加（每年增加 10%）。根系的化学和机械效应对土壤加固的贡献率约为 50%。C. dactylon 的生长速度最快，能迅速加固表层土壤，而 S. setchuensis 在研究期间的土壤加固效果持续上升，根系扎得更深，能加固底层土壤。尽管不同物种的相对贡献率不同，但每种贡献率的变化都为可持续利用植被缓解山区浅层滑坡提供了新的启示。

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来源期刊

Journal of Plant Nutrition and Soil Science 农林科学-农艺学

CiteScore

4.70

自引率

8.00%

发文量

审稿时长

8-16 weeks

期刊介绍： Established in 1922, the Journal of Plant Nutrition and Soil Science (JPNSS) is an international peer-reviewed journal devoted to cover the entire spectrum of plant nutrition and soil science from different scale units, e.g. agroecosystem to natural systems. With its wide scope and focus on soil-plant interactions, JPNSS is one of the leading journals on this topic. Articles in JPNSS include reviews, high-standard original papers, and short communications and represent challenging research of international significance. The Journal of Plant Nutrition and Soil Science is one of the world’s oldest journals. You can trust in a peer-reviewed journal that has been established in the plant and soil science community for almost 100 years. Journal of Plant Nutrition and Soil Science (ISSN 1436-8730) is published in six volumes per year, by the German Societies of Plant Nutrition (DGP) and Soil Science (DBG). Furthermore, the Journal of Plant Nutrition and Soil Science (JPNSS) is a Cooperating Journal of the International Union of Soil Science (IUSS). The journal is produced by Wiley-VCH. Topical Divisions of the Journal of Plant Nutrition and Soil Science that are receiving increasing attention are: JPNSS – Topical Divisions Special timely focus in interdisciplinarity: - sustainability & critical zone science. Soil-Plant Interactions: - rhizosphere science & soil ecology - pollutant cycling & plant-soil protection - land use & climate change. Soil Science: - soil chemistry & soil physics - soil biology & biogeochemistry - soil genesis & mineralogy. Plant Nutrition: - plant nutritional physiology - nutrient dynamics & soil fertility - ecophysiological aspects of plant nutrition.

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