Revealing the long-term impacts of plant invasion and reclamation on native saltmarsh vegetation in the Yangtze River estuary using multi-source time series remote sensing data

IF 3.9 2区 环境科学与生态学 Q1 ECOLOGY
Jinquan Ai , Lijuan Chen , Haiqing He , Xinxing Han
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Abstract

Understanding the long-term dynamics of saltmarsh vegetation and their driving factors is crucial for the restoration of degraded coastal wetlands. Reclamation and plant invasion, identified as the two most significant environmental contributors to saltmarsh vegetation degradation, profoundly influence the evolution of saltmarsh vegetation. However, the long-term impacts of reclamation and plant invasion on native saltmarsh vegetation remain unclear. This study utilized multi-source time series remote sensing data to quantify the long-term impacts of Spartina alterniflora invasion and reclamation on native saltmarsh vegetation in the Yangtze River estuary from 1985 to 2020. Unlike other studies, this study generated annual saltmarsh cover data using image composite, zoning classification, object-based phenology algorithm, and random forest algorithm, which largely addressed the problem that existing studies could not capture transient change and gradual change because of insufficient observation frequency. Results showed that: (1) Reclamation had resulted in a loss of 503.93 km2 of native saltmarsh vegetation from 1985 to 2020, including 286.16 km2 of Phragmites australis community and 217.77 km2 of Scirpus spp. community; Spartina alterniflora invasion had resulted in a loss of 78.96 km2 of native saltmarsh vegetation from 1985 to 2020, including 12.48 km2 of Phragmites australis community and 66.48 km2 of Scirpus spp. community; (2) Significant differences of spatial-temporal evolution patterns of native saltmarsh vegetation were observed under different degrees of Spartina alterniflora invasion and reclamation, including irrecoverable scenario under severe plant invasion and excessive reclamation, recoverable scenario under moderate degree of reclamation and plant invasion, and competitive scenario under plant invasion and without reclamation.; (3) From a long-term remote sensing perspective, spread limitation determined by reclamation intensity was a decisive factor in the evolution of Phragmites australis community in the study area, while interspecific competition between invasive Spartina alterniflora and Scirpus spp. determined the evolution of Scirpus spp. community. This study provides a theoretical basis and baseline for the protection strategies of native saltmarsh vegetation in the study area.

利用多源时间序列遥感数据揭示植物入侵和围垦对长江口原生盐碱地植被的长期影响
了解盐沼植被的长期动态及其驱动因素对于恢复退化的沿海湿地至关重要。填海和植物入侵被认为是造成盐沼植被退化的两个最重要的环境因素,它们对盐沼植被的演化产生了深远的影响。然而,填海和植物入侵对本地盐沼植被的长期影响仍不清楚。本研究利用多源时间序列遥感数据,量化了1985-2020年长江口盐碱地植物入侵和围垦对原生盐碱地植被的长期影响。与其他研究不同的是,该研究利用影像合成、分区分类、基于对象的物候算法和随机森林算法生成了年度盐沼植被数据,在很大程度上解决了现有研究因观测频率不足而无法捕捉瞬时变化和渐变的问题。结果表明(1) 从 1985 年到 2020 年,填海造成原生盐沼植被损失 503.93 平方公里,其中包括 286.16 平方公里的葭萌群落和 217.77 平方公里的藨草群落;从 1985 年到 2020 年,Spartina alterniflora 入侵造成原生盐沼植被损失 78.96 平方公里,其中包括 12.48 平方公里的葭萌群落和 66.48 平方公里的藨草群落;(2) 从 1985 年到 2020 年,填海造成原生盐沼植被损失的差异显著,其中包括 286.16 平方公里的葭萌群落和 217.77 平方公里的藨草群落。2)在不同程度的Spartina入侵和开垦条件下,原生盐沼植被的时空演化模式存在显著差异,包括严重植物入侵和过度开垦条件下的不可恢复情景、适度开垦和植物入侵条件下的可恢复情景以及植物入侵和无开垦条件下的竞争情景。(3) 从长期遥感的角度来看,填海强度决定的蔓延限制是研究区域葭藻群落演化的决定性因素,而入侵的互花叶斯巴达和杉属植物之间的种间竞争决定了杉属植物群落的演化。这项研究为研究区原生盐沼植被的保护策略提供了理论基础和基准。
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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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