A comparative study of mangroves in degraded, natural, and restored ecosystems in Guyana

Q3 Environmental Science

Biodiversity Pub Date : 2022-04-03 DOI:10.1080/14888386.2022.2107570

Sabrina Dookie, S. Jaikishun, A. Ansari

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引用次数: 3

Abstract

ABSTRACT Mangrove ecosystems are subject to multiple environmental stresses which often challenge their resistance and resilience. In this study, comparisons were made between mangrove trees and seedlings in natural, degraded, and restored mangrove ecosystems found on the coastline of Guyana. Biophysical measurements were made using the point-centred quarter method (PCQM) in both the wet and dry seasons. The density of seedlings and trees varied between locations, with natural mangrove ecosystems having the highest density while degraded ecosystems had the lowest. Significant differences were also reported for biophysical measurements for seedlings (df = 5, p < 2.2e-16) and trees (height; diameter at breast height) [F(10, 564) = 112.47, p < 2.2e-16] between all three types of mangrove ecosystems with biophysical measurements showcasing positive correlations (p < .05, rs < 0.5) in most locations. Regression analysis results further established strong relationships between biophysical measurements of plants and their locations. Key policy insights Mangrove ecosystems provide several ecological goods and services while providing protection against the sea and sustaining the resident biodiversity. There is a need for greater conservation and preservation efforts for mangrove ecosystems since their dynamics are heavily impacted by anthropogenic activities and natural phenomena. Mangroves have the capacity to capture and store carbon, making them active participants in the global sequestration of carbon, and in the fight against climate change.

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圭亚那退化、自然和恢复生态系统中红树林的比较研究

红树林生态系统受到多种环境压力的影响，这些压力经常挑战其抵抗力和恢复力。在这项研究中，对圭亚那海岸线上发现的自然、退化和恢复的红树林生态系统中的红树林树和幼苗进行了比较。在干湿季节采用点中心四分之一法(PCQM)进行生物物理测量。不同地点的树苗和树木密度不同，自然红树林生态系统的密度最高，而退化生态系统的密度最低。幼苗(df = 5, p < 2.2 -16)和树木(高度;在所有三种类型的红树林生态系统之间[F(10,564) = 112.47, p < 2.212 -16]，生物物理测量显示在大多数地点呈正相关(p < 0.05, rs < 0.5)。回归分析结果进一步确立了植物生物物理测量值与其位置之间的密切关系。红树林生态系统提供了多种生态产品和服务，同时提供了对海洋的保护并维持了当地的生物多样性。红树林生态系统的动态受到人为活动和自然现象的严重影响，因此需要作出更大的养护和保存努力。红树林具有捕获和储存碳的能力，使它们成为全球碳封存和应对气候变化的积极参与者。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biodiversity Environmental Science-Nature and Landscape Conservation

CiteScore

1.80

自引率

0.00%

发文量

期刊介绍： The aim of Biodiversity is to raise an appreciation and deeper understanding of species, ecosystems and the interconnectedness of the living world and thereby avoid the mismanagement, misuse and destruction of biodiversity. The Journal publishes original research papers, review articles, news items, opinion pieces, experiences from the field and book reviews, as well as running regular feature sections. Articles are written for a broad readership including scientists, educators, policy makers, conservationists, science writers, naturalists and students. Biodiversity aims to provide an international forum on all matters concerning the integrity and wellness of ecosystems, including articles on the impact of climate change, conservation management, agriculture and other human influence on biodiversity.