Amelia S.N. Kumala, Devi N. Choesin, Ichsan Suwandhi
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From the six study sites, the highest estimated carbon stock was 426.2 Mg C ha<sup>−1</sup> (Site 5; Telaga, dominated by <em>E. acoroides</em>). Meanwhile, the lowest estimated carbon stock was 127.4 Mg C ha<sup>−1</sup> (Site 4; Koin, dominated by <em>T. hemprichii</em>)<em>.</em> The density of <em>E. acoroides</em> was positively correlated with the total seagrass biomass carbon stocks (r = 0.97; p < 0.01), while its dominance was positively correlated with sediment carbon stocks (r = 0.92; p < 0.05) and total seagrass ecosystem carbon stocks (r = 0.92; p < 0.05). Seagrass ecosystems with different community structures showed different carbon storage capacities. 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引用次数: 0
摘要
海草生态系统被认为是储存碳最有效的沿海生态系统之一。某一生态系统的碳储量估算受物种多样性和生境类型等因素的影响很大。本研究以印度尼西亚卡里蒙查瓦海洋国家公园(Karimunjawa Marine National Park)的六个沿海地点为案例,旨在研究海草生态系统中植物群落结构与碳储量之间的关系。该地区记录了 8 种海草,即 Enhalus acoroides、Thalassia hemprichii、Cymodocea rotundata、Halodule pinifolia、Halophila ovalis、Halophila minor、Syringodium isoetifolium 和 Oceana serrulata。在六个研究地点中,估计最高碳储量为 426.2 兆克碳公顷-1(地点 5;泰拉加,以 E. acoroides 为主)。同时,最低的碳储量估计值为 127.4 Mg C ha-1(地点 4;Koin,以 T. hemprichii 为主)。E. acoroides的密度与海草生物量总碳储量呈正相关(r = 0.97; p <0.01),而其优势度与沉积物碳储量(r = 0.92; p <0.05)和海草生态系统总碳储量(r = 0.92; p <0.05)呈正相关。不同群落结构的海草生态系统表现出不同的碳储存能力。以 E. acoroides 等大型物种为主的海草生态系统估计碳储量较高,这表明在管理海草生态系统以进行碳固存和储存时,考虑群落结构的变化非常重要。
Relationship between seagrass community structure and carbon stocks on the coasts of Karimunjawa Marine National Park, Indonesia
The seagrass ecosystem is considered one of the most effective coastal ecosystems in storing carbon. Carbon stock estimation for a certain ecosystem is highly affected by factors such as species diversity and habitat type. This study aims to investigate the relationship between plant community structure and carbon stocks in the seagrass ecosystem using a case study of six coastal sites in Karimunjawa Marine National Park, Indonesia. In this region, eight seagrass species were recorded, i.e., Enhalus acoroides, Thalassia hemprichii, Cymodocea rotundata, Halodule pinifolia, Halophila ovalis, Halophila minor, Syringodium isoetifolium, and Oceana serrulata. From the six study sites, the highest estimated carbon stock was 426.2 Mg C ha−1 (Site 5; Telaga, dominated by E. acoroides). Meanwhile, the lowest estimated carbon stock was 127.4 Mg C ha−1 (Site 4; Koin, dominated by T. hemprichii). The density of E. acoroides was positively correlated with the total seagrass biomass carbon stocks (r = 0.97; p < 0.01), while its dominance was positively correlated with sediment carbon stocks (r = 0.92; p < 0.05) and total seagrass ecosystem carbon stocks (r = 0.92; p < 0.05). Seagrass ecosystems with different community structures showed different carbon storage capacities. Seagrass ecosystems dominated by large-sized species such as E. acoroides showed higher estimated carbon stocks thus suggesting the importance of considering the variability of community structure in managing seagrass ecosystems for carbon sequestration and storage.
期刊介绍:
Acta Oecologica is venue for the publication of original research articles in ecology. We encourage studies in all areas of ecology, including ecosystem ecology, community ecology, population ecology, conservation ecology and evolutionary ecology. There is no bias with respect to taxon, biome or geographic area. Both theoretical and empirical papers are welcome, but combinations are particularly sought. Priority is given to papers based on explicitly stated hypotheses. Acta Oecologica also accepts review papers.