Pujarini Samal, Saradambal Ramchandaran Subramanian, J. Srivastava, M. Kawsar, Madhusudanan Chandrika Manoj, G. P. Gurumurthy, Mohd Munazir Chauhan, Sajid Ali, Mahboob Alam, Anupam Sharma, P. S. Jena, A. Shivam, R. Bhushan
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引用次数: 0
Abstract
Understanding the impact of climate change on the vegetation cover in the past is crucial for predicting the future warming scenario and its consequences. The present study integrates biotic (palynological analysis) and abiotic proxy (sediment chemistry, clay mineral assemblages and grain size end member (EM) analysis) records in a chronologically constrained sedimentary sequence from the southeastern part of the Mahanadi River delta to reconstruct the hydroclimate since 2600 years. The Mahanadi delta sediments are primarily derived from felsic rock source possibly composed of granites or granulites. The dominance of herbaceous taxa, high aridity index and deposition of fine grain (EM1) sediment possibly suggest a relatively cold and dry climate in the study region during ~2600–2100 cal yr BP corresponding to the Iron Age Cold Period (IACP). Presence of diverse mangrove and tree taxa, deposition of coarser sediment (EM3) and relatively high abundance of secondary clay minerals possibly indicate high precipitation associated with the Roman Warm Period (RWP, ~2100–1800 cal yr BP). A decline in mangroves, dominance of herbaceous taxa and high deposition of fine grain (EM2) sediment from ~1800 to 1300 cal yr BP may indicate a relatively drier climate coinciding with the Dark Age Cold Period (DACP). High moisture index and an increased value of Rb/Sr during ~1300 cal yr BP may suggest a wet phase with the onset of the Medieval Climatic Anomaly (MCA) and later shifted to an arid climate during ~1100–800 cal yr BP. After ~800 cal yr BP, a sharp decline in all weathering indices and vegetation cover, dominance of illite indicates a relatively dry climate which could mark the Little Ice Age (LIA, ~800–300 cal yr BP). A small increase in the terrestrial flux, as well as the weathering indices after ~300 cal yr BP, may suggest the onset of recent warming.
了解过去气候变化对植被覆盖的影响对于预测未来变暖情景及其后果至关重要。本研究整合了Mahanadi河三角洲东南部一个受时间限制的沉积序列中的生物(孢粉学分析)和非生物代理(沉积物化学、粘土矿物组合和粒径末端成员(EM)分析)记录,以重建2600年以来的水气候。Mahanadi三角洲沉积物主要来源于长英质岩石,可能由花岗岩或麻粒岩组成。草本类群的优势、高干旱指数和细粒(EM1)沉积物的沉积可能表明,在相当于铁器时代寒冷期(IACP)的约2600–2100 cal yr BP期间,研究区域的气候相对寒冷和干燥。不同红树林和树木分类群的存在、较粗沉积物(EM3)的沉积和相对高丰度的次生粘土矿物可能表明与罗马暖期有关的高降水量(RWP,~2100–1800卡年BP)。红树林的减少、草本类群的优势和细粒(EM2)沉积物的高沉积量(约1800至1300卡年BP)可能表明气候相对干燥,与黑暗时代寒冷期(DACP)相吻合。在约1300 cal yr BP期间,高湿度指数和Rb/Sr值的增加可能表明随着中世纪气候异常(MCA)的开始,处于潮湿阶段,随后在约1100–800 cal yr的BP期间转变为干旱气候。在~800 cal yr BP之后,所有风化指数和植被覆盖率急剧下降,伊利石占主导地位,表明气候相对干燥,这可能标志着小冰期(LIA,~800–300 cal yr BP)。陆地通量的小幅增加,以及约300卡年BP后的风化指数,可能表明近期变暖的开始。
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.