Quantifying Biomass of Microphytobenthos in sediments of Mangroves in the east coast of Qatar

Dina Isaifan, Y. Suleiman
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Abstract

Mangroves, Avicennia marina, are highly productive coastal ecosystems with capacity to store carbon within plants and in sediments. Micropytobenthos (MPB) in the sediments also fix carbon and play a significant role in carbon burial. However, there is paucity of information on the role of MPB in coastal carbon budget. We quantified the biomass of MPB as an important carbon pool in the mangrove of Al Thakhira, located at the east coast of Qatar. Sediments at different tidal levels namely, supratidal, intertidal, and subtidal were collected and analyzed for grain size, chlorophyll (a), total carbon, and inorganic carbon contents. Results indicated that sand was the dominant species (60%), followed by silt (39%) and clay (1%) at all tidal levels. While the supratidal level had significantly higher silty sand content, silt dominated the intertidal levels. Moreover, chlorophyll (a) was significantly influenced by tidal levels with highest levels in the subtidal level sediments, where mangroves grow extensively. Results also demonstrated that as we move towards the intertidal zone, the total carbon content in sediments gets higher. Finally, chlorophyll (a) and TOC% were positively associated (r=0.643) in all tidal zones. As we move towards the mangrove subtidal growth area, the total carbon content in sediments gets higher. This work recommends that mangrove forests in Qatar be protected by special sanctuaries and law-enforcement to maintain this natural and dynamic blue carbon ecosystem.
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卡塔尔东海岸红树林沉积物中微底栖植物生物量的定量研究
红树林(Avicennia marina)是高产的沿海生态系统,具有将碳储存在植物和沉积物中的能力。沉积物中的微底栖生物(Micropytobenthos, MPB)也固定碳,并在碳埋藏中发挥重要作用。然而,关于MPB在沿海碳预算中的作用的信息缺乏。我们量化了卡塔尔东海岸Al Thakhira红树林中MPB作为重要碳库的生物量。收集了潮上、潮间和潮下不同潮位的沉积物,分析了沉积物粒度、叶绿素(a)、总碳和无机碳含量。结果表明:各潮位的优势种为砂(60%),其次为粉砂(39%)和粘土(1%);潮上层粉砂含量显著高于潮间层,潮间层以粉砂为主。此外,叶绿素(a)受潮位的显著影响,在红树林广泛生长的潮下沉积物中含量最高。结果还表明,随着我们向潮间带移动,沉积物中的总碳含量越来越高。各潮区叶绿素(a)与TOC%呈显著正相关(r=0.643)。当我们向红树林潮下生长区域移动时,沉积物中的总碳含量变得更高。这项工作建议通过特别保护区和执法来保护卡塔尔的红树林,以维持这种自然和动态的蓝碳生态系统。
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