马达加斯加中部Alaotra湖地区的植被变化和泥沙动力学

IF 1.6 3区 地球科学 Q3 GEOGRAPHY, PHYSICAL Holocene Pub Date : 2022-12-23 DOI:10.1177/09596836221145376
N. Broothaerts, V. F. Razanamahandry, Liesa Brosens, Benjamin Campforts, L. Jacobs, T. Razafimbelo, T. Rafolisy, G. Verstraeten, S. Bouillon, Gerard Govers
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引用次数: 2

摘要

马达加斯加以其中部高地的高侵蚀率而闻名,但人类干扰与自然过程的作用尚未得到很好的理解,这是一个持续争论的话题。目前,马达加斯加缺少将植被动态和沉积物通量随时间结合起来的必要定量数据。这项研究的目的是提供更多关于过去几千年来阿拉奥特拉湖地区植被变化和沉积物转移的信息,特别是人类干扰和自然过程的作用。我们的植被重建是基于两个湖泊沉积物岩心的花粉记录,覆盖了过去2600年。沉积物积累速率是根据从洪泛平原、湖泊周围的湿地和Alaotra湖本身获得的岩心计算出来的。我们的数据显示,在2050年至1700 cal a BP之间,景观出现了早期开放,从树木繁茂的草地或林地/草地马赛克过渡到开阔的草地,木炭积累率增加。(间接)人类影响被认为是这些植被变化的主要驱动因素。河漫滩和湿地沉积物累积速率在近1000年呈上升趋势,在近400年达到峰值。这种积累的增加主要与人为压力的增加(放牧和农业活动)有关,后者引发了lavaka(沟壑)活动的增加。Alaotra湖沉积物的累积速率没有变化,表明大部分沉积物在洪泛平原和湿地中得到缓冲。总体而言,我们的花粉和木炭数据表明,人类干扰对植被转移有间接影响,同时发现了强有力的证据,表明人类干扰通过强化草原利用对沉积物积累有直接影响。
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Vegetation changes and sediment dynamics in the Lake Alaotra region, central Madagascar
Madagascar is known for its high erosion rates in the central highlands, yet the role of human disturbance versus natural processes is not well understood and is a topic of ongoing debate. At present the necessary quantitative data to couple vegetation dynamics and sediment fluxes over time in Madagascar is scarce. This study aims to provide more insight in vegetation changes and sediment transfers over the last millennia in the Lake Alaotra region, and specifically on the role of human disturbances and natural processes. Our vegetation reconstruction is based on pollen records from two lake sediment cores, covering the last 2600 years. Sediment accumulation rates were calculated from cores obtained from the floodplains, from wetlands surrounding the lake, and from Lake Alaotra itself. Our data show an early opening in the landscape, between 2050 and 1700 cal a BP, with a transition from a wooded grassland or woodland/grassland mosaic towards open grassland and an increase in charcoal accumulation rates. (Indirect) human impact is suggested as the main driver for these vegetation changes. Floodplain and wetland sediment accumulation rates only increase in the last 1000 years and peak in the last 400 years. This increased accumulation can mainly be linked to the increased anthropogenic pressure (grazing and farming activities) that triggered increased lavaka (gullies) activity. No changes in accumulation rate were observed in Lake Alaotra, indicating that most sediments are buffered in the floodplains and wetlands. Overall, our pollen and charcoal data suggest an indirect effect of human disturbance on vegetation shifts whilst strong evidence was found for a direct effect of human disturbance on sediment accumulation through intensified use of the grasslands.
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来源期刊
Holocene
Holocene 地学-地球科学综合
CiteScore
4.70
自引率
8.30%
发文量
106
审稿时长
4 months
期刊介绍: The Holocene is a high impact, peer-reviewed journal dedicated to fundamental scientific research at the interface between the long Quaternary record and the natural and human-induced environmental processes operating at the Earth''s surface today. The Holocene emphasizes environmental change over the last ca 11 700 years.
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