斯里兰卡红树林生态系统的碳储量:平均贡献和固碳潜力的决定因素

IF 4.8 2区 环境科学与生态学 Q1 OCEANOGRAPHY Ocean & Coastal Management Pub Date : 2024-09-01 DOI:10.1016/j.ocecoaman.2024.107357
K.A. Roshan S. Perera , Wasana de silva , Mala D. Amaransinghe
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引用次数: 0

摘要

红树林虽然只占地球表面的一小部分,但在碳封存方面却至关重要。纬度梯度主要决定了不同日照、温度和降水模式的气候区分布,从而影响了红树林生态系统的群落结构。斯里兰卡的热带气候造就了岛上茂密的红树林。本研究估计,斯里兰卡红树林生态系统的平均岛屿固碳能力为 524.25 吨/公顷,这代表了大量的碳储存,有助于抵消大气中二氧化碳增加造成的温室效应。我们的研究结果证明,降雨量对红树林生态系统的总固碳能力有积极影响。研究还发现,植被结构复杂性与沉积物有机碳之间存在正相关关系,这突出表明了植被结构对有机物生产和沉积物固碳的影响,而植被结构主要取决于气候条件。据报道,全球范围内,热带地区红树林生态系统的碳汇功能最高,向亚热带高纬度地区递减,而南半球红树林生态系统的碳汇功能优于北半球。研究发现,红树林沉积物中总有机物含量的垂直分布呈下降趋势,这表明在斯里兰卡海域的微潮汐条件下,潮汐对地表有机物的清除作用很弱,因此微潮汐海岸的红树林生态系统是有效的碳汇。
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Carbon stocks in mangrove ecosystems of Sri Lanka: Average contributions and determinants of sequestration potential

Mangroves are crucial in carbon sequestration despite covering only a small percentage of the Earth's surface. Latitudinal gradient primarily determines the distribution of climatic zones of distinct sunlight, temperature, and precipitation patterns, which influence the community structure of the mangrove ecosystem. The tropical climate of Sri Lanka contributes to the island's lush mangrove forests. The present study estimated that the average island's carbon sequestration capacity of Sri Lankan mangrove ecosystems is 524.25 t/ha representing a substantial volume of carbon storage that contributes to offset greenhouse effect due to increasing atmospheric CO2. Our results substantiated that rainfall positively influences total carbon sequestration capacity of mangrove ecosystems.

It was also revealed that a positive relationship exists between vegetation structural complexity and sediment organic carbon, highlighting the influence of vegetation structure, that is primarily dependent on climatic conditions, on production of organic matter and sediment carbon sequestration. Globally, the carbon sink function of mangrove ecosystems is reported to be highest in the tropical areas and it declines towards sub-tropical higher latitudes while those in the southern hemisphere perform better carbon sinks than those in the northern hemisphere.

The vertical distribution of total organic matter content in mangrove sediments was revealed to be in a descending order, manifesting the weak tidal removal of surface organic matter under the microtidal conditions in Sri Lankan marine waters, thus qualifying mangrove ecosystems in microtidal coasts as effective carbon sinks.

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来源期刊
Ocean & Coastal Management
Ocean & Coastal Management 环境科学-海洋学
CiteScore
8.50
自引率
15.20%
发文量
321
审稿时长
60 days
期刊介绍: Ocean & Coastal Management is the leading international journal dedicated to the study of all aspects of ocean and coastal management from the global to local levels. We publish rigorously peer-reviewed manuscripts from all disciplines, and inter-/trans-disciplinary and co-designed research, but all submissions must make clear the relevance to management and/or governance issues relevant to the sustainable development and conservation of oceans and coasts. Comparative studies (from sub-national to trans-national cases, and other management / policy arenas) are encouraged, as are studies that critically assess current management practices and governance approaches. Submissions involving robust analysis, development of theory, and improvement of management practice are especially welcome.
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