Combination of plant species and water depth enhance soil quality in near-natural restoration of reclaimed wetland

IF 3.9 2区 环境科学与生态学 Q1 ECOLOGY
Tao Yang , Jing Jiang , Fengxue Shi , Rui Cai , Haibo Jiang , Lianxi Sheng , Chunguang He
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引用次数: 0

Abstract

Plant introduction and hydrological management are essential strategies for near-natural wetland restoration. However, the combined effects of plant species and water depth on soil quality restoration remain poorly understood. The wetland ecosystem is crucial for Earth ecosystem health and sustainable development, but it faces challenges due to environmental change and human activities leading to soil quality degradation. In this study, we conducted a five-year near-natural restoration experiment covering approximately 2071 m2 area in the Changbai Mountains region of northeastern China to assess the impact of plant species and water depth combinations on soil quality dynamics in reclaimed wetlands. Through an ecological engineering project, a meticulous controlled experiment was implemented to investigate the impact of different plant species and water depth combinations on soil quality in near-naturally restored wetlands. Over the five-year restoration period, we observed significant improvements in soil quality indicators, including pH, bulk density, soil organic carbon content, and labile organic carbon fractions. Soil pH and bulk density both showed a decreasing trend, with notable variations influenced by the combination of plant species and water depth. Particularly significant drops were observed in wetlands where Lythrum salicaria L. was introduced at 10 cm water depth and Iris wilsonii C. H. Wright was introduced at 30 cm water depth. Meanwhile, soil organic carbon content also appeared optimal restoration effects in the aforementioned combinations, highlighting the regulatory effect of these combinations on soil quality regulation. Linear regression modeling demonstrated a significant positive correlation between soil organic carbon and both above-ground and below-ground biomass, highlighting the interplay between vegetation dynamics and soil quality restoration. Our study provides valuable insights into the complex dynamics of soil quality restoration in reclaimed wetlands and underscores the importance of considering plant species-water depth combinations in restoration planning. By understanding these dynamics, restoration practitioners can make informed decisions to enhance the sustainability of wetland ecosystems and their invaluable ecological services.

植物物种和水深相结合,提高填海湿地近自然恢复的土壤质量
植物引种和水文管理是近自然湿地恢复的基本策略。然而,人们对植物物种和水深对土壤质量恢复的综合影响仍然知之甚少。湿地生态系统对地球生态系统健康和可持续发展至关重要,但由于环境变化和人类活动导致土壤质量退化,湿地生态系统面临着挑战。在本研究中,我们在中国东北长白山地区开展了一项为期五年、面积约 2071 平方米的近自然恢复实验,以评估植物物种和水深组合对开垦湿地土壤质量动态的影响。通过一个生态工程项目,实施了一项细致的对照实验,研究不同植物物种和水深组合对近自然恢复湿地土壤质量的影响。在为期五年的恢复期内,我们观察到土壤质量指标有了显著改善,包括 pH 值、容重、土壤有机碳含量和易变有机碳组分。土壤 pH 值和容重均呈下降趋势,植物种类和水深的组合影响了这两个指标的显著变化。在水深 10 厘米处引入 Lythrum salicaria L. 和水深 30 厘米处引入 Iris wilsonii C. H. Wright 的湿地,土壤 pH 值和容重下降尤为明显。同时,在上述组合中,土壤有机碳含量也出现了最佳修复效果,突出了这些组合对土壤质量的调节作用。线性回归模型表明,土壤有机碳与地上生物量和地下生物量之间存在显著的正相关关系,凸显了植被动态与土壤质量恢复之间的相互作用。我们的研究为了解开垦湿地土壤质量恢复的复杂动态提供了宝贵的见解,并强调了在恢复规划中考虑植物物种-水深组合的重要性。通过了解这些动态变化,恢复工作者可以做出明智的决策,以提高湿地生态系统的可持续性及其宝贵的生态服务。
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来源期刊
Ecological Engineering
Ecological Engineering 环境科学-工程:环境
CiteScore
8.00
自引率
5.30%
发文量
293
审稿时长
57 days
期刊介绍: Ecological engineering has been defined as the design of ecosystems for the mutual benefit of humans and nature. The journal is meant for ecologists who, because of their research interests or occupation, are involved in designing, monitoring, or restoring ecosystems, and can serve as a bridge between ecologists and engineers. Specific topics covered in the journal include: habitat reconstruction; ecotechnology; synthetic ecology; bioengineering; restoration ecology; ecology conservation; ecosystem rehabilitation; stream and river restoration; reclamation ecology; non-renewable resource conservation. Descriptions of specific applications of ecological engineering are acceptable only when situated within context of adding novelty to current research and emphasizing ecosystem restoration. We do not accept purely descriptive reports on ecosystem structures (such as vegetation surveys), purely physical assessment of materials that can be used for ecological restoration, small-model studies carried out in the laboratory or greenhouse with artificial (waste)water or crop studies, or case studies on conventional wastewater treatment and eutrophication that do not offer an ecosystem restoration approach within the paper.
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