Eco-friendly structures for sustainable mangrove restoration

IF 8.2 1区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES

Science of the Total Environment Pub Date : 2025-04-17 DOI:10.1016/j.scitotenv.2025.179393

Midhun Mohan , Pandi P. Selvam , Ewane Basil Ewane , Lara G. Moussa , Emma F. Asbridge , Stacey M. Trevathan-Tackett , Peter I. Macreadie , Michael S. Watt , Lucy Gwen Gillis , Francoise Cabada-Blanco , Ian Hendy , Eben North Broadbent , Sabrina K.B. Olsson , Beatriz Marin-Diaz , John A. Burt

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Abstract

Mangrove forests around the world are under significant pressure from climate change (e.g., rising sea levels), and human-related anthropogenic activities (e.g., coastal infrastructure development). Mangrove restoration projects have increased over the past decades but seedling and propagule survival rates are reportedly low, while many projects have failed. There exists a need to assess the effectiveness of sustainable and cost-effective eco-friendly structures (EFS) for advancing the success of mangrove restoration and planting activities. Herein, by EFS, we refer to the frameworks made of biodegradable materials that help overcome establishment bottlenecks and thereby boost seedling survival and growth rates. In this study, we explored the effectiveness of EFS in aiding mangrove restoration success by enhancing seedling establishment and survival and tree growth rates. Furthermore, we examine the steps involved and the challenges limiting EFS implementation in mangrove restoration projects. EFS installed in coastal areas trap sediment and may provide protection for newly planted mangrove seedlings and propagules by providing a stable anchorage and attenuating water flow and waves. Additionally, once plants are established, these biodegradable structures would decompose and add to the soil nutrients stock, thereby improving its fertility and supporting mangrove growth. We emphasize that in sites with favorable biophysical conditions for mangrove growth (hydrology, soil, topography, climate, among others), using EFS can improve mangrove restoration success by enhancing seedling establishment, survival and growth. Mangrove restoration success may have add-on benefits such as increasing the provision of related ecosystem services, blue carbon credit financing and overall coastal environmental sustainability. Given the novelness of this topic in the scientific literature, this article aims to stimulate active discussions, including anticipation of potential challenges (e.g., cost-effectiveness, ability to scale and field limitations in a range of biogeographic settings), for bringing in improvements and scalable adoption strategies to the mangrove restoration approaches under consideration.

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可持续红树林恢复的生态友好型结构

世界各地的红树林都面临着气候变化（如海平面上升）和与人类有关的人为活动（如沿海基础设施开发）的巨大压力。在过去的几十年里，红树林恢复项目有所增加，但据报道，幼苗和繁殖体的存活率很低，而许多项目都失败了。有必要评估可持续和具有成本效益的生态友好结构（EFS）的有效性，以促进红树林恢复和种植活动的成功。在这里，通过EFS，我们指的是由可生物降解材料制成的框架，有助于克服建立瓶颈，从而提高幼苗的存活率和生长速度。在这项研究中，我们探讨了EFS通过提高幼苗的建立和存活以及树木的生长速度来帮助红树林恢复成功的有效性。此外，我们研究了在红树林恢复项目中涉及的步骤和限制EFS实施的挑战。安装在沿海地区的EFS可以截留沉积物，并通过提供稳定的锚地和减弱水流和波浪，为新种植的红树林幼苗和繁殖体提供保护。此外，一旦植物生长，这些可生物降解的结构将分解并增加土壤养分储备，从而提高其肥力并支持红树林的生长。我们强调，在具有良好的红树林生长生物物理条件（水文、土壤、地形、气候等）的地点，利用EFS可以通过促进幼苗的建立、存活和生长来提高红树林恢复的成功率。红树林恢复的成功可能会带来额外的好处，如增加相关生态系统服务的提供、蓝碳信用融资和整体沿海环境的可持续性。鉴于这一主题在科学文献中的新颖性，本文旨在激发积极的讨论，包括对潜在挑战的预测（例如，成本效益、规模能力和一系列生物地理环境下的野外限制），以便为正在考虑的红树林恢复方法带来改进和可扩展的采用策略。

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来源期刊

Science of the Total Environment 环境科学-环境科学

CiteScore

17.60

自引率

10.20%

发文量

8726

审稿时长

2.4 months

期刊介绍： The Science of the Total Environment is an international journal dedicated to scientific research on the environment and its interaction with humanity. It covers a wide range of disciplines and seeks to publish innovative, hypothesis-driven, and impactful research that explores the entire environment, including the atmosphere, lithosphere, hydrosphere, biosphere, and anthroposphere. The journal's updated Aims & Scope emphasizes the importance of interdisciplinary environmental research with broad impact. Priority is given to studies that advance fundamental understanding and explore the interconnectedness of multiple environmental spheres. Field studies are preferred, while laboratory experiments must demonstrate significant methodological advancements or mechanistic insights with direct relevance to the environment.