河岸地形变化对中国长河消落带生态指标下降的影响

IF 2.7 3区 农林科学 Q2 ECOLOGY
Muhammad Arif, Irene Petrosillo, Changxiao Li
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引用次数: 0

摘要

河岸地形特征可推动一系列生态指标(EIs),从而塑造河流生态系统。生态指标所反映的机制可提供多种生态系统服务。我们对 EIs(植物覆盖、再生、外来物种、栖息地、侵蚀和压力等指标)对变化的河道宽度、河岸宽度以及长河流漫长的缩减区(上游、中游和下游)的海拔高度的反应知之甚少。我们采用基于现场的快速方法,在中国长江及其他 36 条相连支流的淹没区进行了 297 次横断面调查,发现地形特征的变化对河岸缓冲区的影响各不相同。改变河道宽度对下游河岸缓冲区的影响最大,对中游河岸缓冲区的影响最小。根据皮尔逊相关性(p < 0.05),外来参数受河道宽度的影响最大(范围为-0.36 < r < 0.401)。相比之下,河岸宽度的变化对上游 EI 的影响最大,对下游的影响最小;河岸宽度对生境参数的影响最大(r ≤ 0.787)。海拔沿袭了河岸宽度的模式,与生境和外来物种呈负相关(r ≤ -0.645 和 r ≤ -0.594),与再生呈正相关(r ≤ 0.569)。这些结果再次证明,无论河岸地区的地形特征如何,都亟需对在相同管理策略下维护的区域依赖性河岸地区进行研究。未来政策的制定应加强生态系统服务的提供,促进大面积河流生态系统的可持续利用,同时考虑生态影响因素。此外,这些未来政策应承认同一河流网络中的缩减区因素。此外,还必须采取更多措施保护地形特征,防止进一步破坏。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of changing riparian topography on the decline of ecological indicators along the drawdown zones of long rivers in China
Riparian topographical features can drive a suite of ecological indicators (EIs) that shape the river ecosystem. The mechanisms that EIs reflect provide several ecosystem services. We know little about the responses of EIs (indicators of plant cover, regeneration, exotics, habitat, erosion, and stressors) to the changing stream-channel width, riparian width, and elevation of the lengthy drawdown zones (upstream, midstream, and downstream) of long rivers. We have discovered that changing topographical characteristics affect riparian buffer areas differently by using a rapid field-based method with 297 transects in inundated regions along the Yangtze River and other 36 linked tributaries in China. Changing stream-channel widths was most effective on downstream EIs and the least effective at midstream. The exotic parameters were the most affected (with a range of −0.36 < r < 0.401) by stream-channel widths, as determined using Pearson correlation (p < 0.05). In contrast, the changing riparian width had the uppermost impact on the upstream EIs and the lowermost impact downstream; riparian width had the most significant impact on habitat parameters (with r ≤ 0.787). The elevation followed the riparian width pattern and was negatively associated with habitat and exotics (r ≤ −0.645 and r ≤ −0.594) and positively correlated with regeneration (r ≤ 0.569). These results reaffirm the imperative need for studies on regionally dependent riparian areas maintained under the same management strategies regardless of their topographical features. Future policies should be formulated to enhance ecosystem service provision, promoting the sustainable use of extensive river ecosystems while considering EIs. Additionally, these future policies should acknowledge drawdown zone factors within the same river network. Furthermore, additional measures are imperative to conserve topographical features and prevent further destruction.
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来源期刊
CiteScore
4.50
自引率
6.20%
发文量
256
审稿时长
12 weeks
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