史前人类与其生存环境,特别是与植被之间的相互作用一直是人们关注的焦点。气候变化与人类活动对植被覆盖格局的塑造均有重要影响,厘清植被分布及其植被变化背后的气候或人为因素,有助于更好地认识人类活动对植被环境的影响程度与范围。本研究对青藏高原松属(Pinus spp.)植被适生区分布动态历史进行了物种分布模型模拟,并结合环境考古学、古生态学等多学科方法,探究青藏高原松属植被分布变化历史及其驱动因素。结果表明,基于最大熵(MaxEnt)算法并结合R语言包ENMeval来优化参数设置的模型性能表现良好且稳健,较为准确模拟松属在青藏高原地区不同时期的适生区分布动态。高原上松属适生区在末次冰盛期(LGM)分布最小,仅在东缘的河谷局地;在全新世早、中期分布达到最大值,到全新世晚期部分区域分布缩小,高原东北部高度适生区向2500 m a. s. l.上下的低海拔谷地收缩,整体上与高原气候变化趋势大体一致。结合化石花粉、木炭等证据表明,全新世中晚期以前,人类对高原松属植被影响总体尚不显著;进入全新世晚期,农业技术的进步促使高原东北部人口快速增加,高原上现已发现的古遗址也高度集中在此。结合多项考古证据表明,人类对松属为代表的林木资源规模化开发行为开始显著干扰了当地植被,人类对松属等针叶林木材资源的利用可能是该地区树种向阔叶林树种演替的重要驱动因素之一。
To the south of Manzhouli, Hulunbuir, Inner Mongolia, experienced a tectonic regime transformation from compression to extension in the mid-Mesozoic. Based on systematic research of the volcanics, petrology, volcanic facies, chronology and geochemistry of rocks in the Buridun area, two stages of volcanics are identified. The first stage named the trachyte series was formed in the late Middle Jurassic (167–163 Ma), its eruption rhythm is pyroxene trachyandesite–trachyandesite–trachyte, and its origin rock is basic volcanics from thickened lower crust, with a tectonic setting in the collision orogeny after the closure of the Mongolia Okhotsk Ocean (MOO). The second stage is a bimodal volcanic rock, formed in the early Late Jurassic (163–160 Ma). The eruption rhythm of basic volcanics in this stage is basaltic andesite–basalt–olivine basalt, which comes from the metasomatized lithospheric mantle, the acidic volcanics of which being characterized by the eruption rhythm of sedimentary-explosive-overflow facies, which came from the partial melting of newly formed lower crust, and this shows the characteristics of A-type granite; the tectonic setting is extension of the lithosphere after collision and closure of the MOO. The changes in the formation age and tectonic setting of the two stages of volcanics demonstrate that the transition time from the compressive system to the extensional system south of Manzhouli is about 163 Ma. 相似文献
The widely distributed Early Cretaceous magmatism in the Tethys Himalaya(TH) of southern Tibet is related to the Kerguelen mantle plume. Associated magmatic activity products are distributed in the eastern TH, where the active age is earlier than the peak ages of the Kerguelen mantle plume. This study investigated magmatic activity of the Dingri area in the central TH which was coeval with the Kerguelen mantle plume. The intrusion in the Dingri area contains diabases and monzonites. The zircon a... 相似文献