广东流溪河水库湖沼学变量的时空动态特征

流溪河水库县位于北回归线上的大型山谷型水库,是一座典型的热带-亚热带过渡区水体.为了解该水库的特点,于2006年对水库的水文、营养盐状况及相关理化因子进行了逐月监测,对其主要的湖沼学变量的季节动态和空间分布进行了分析,探讨了湖沼学特征和生态过程的主要驱动因子.流溪河水库全年表层水温在14.9-31.6℃之间,水柱热分层开始于3月初,一直持续到12月,呈单循环混合模式.水库的水动力学主要受降水和水库用水的影响,2006年全年降雨量为2960mm,平均水力滞留时间长170d;降雨量集中在丰水期(4-9月),导致丰水期水力滞留时间短(65d),丰水期与枯水期水文水动力季节性差别显著,水文水动力学变化剧烈.2006年全年湖泊区的TN、TP、Chl.a、SD的平均值分别为0.66mg/L,0.016mg/L,2.2mg/m3,3.1m,指示该水库为贫中营养型水体.N/P的质量比为41:1,DIN/DIP的质量比为78:1,说明该水库浮游植物生长在强烈的磷限制性水体中,较高的N/P比是由流域中热带-亚热带红壤中营养盐组成特点所决定.营养盐、透明度和叶绿素a等变量的分布具有明显的时空异质性,丰水期初期(4-5月)营养盐浓度显著地高于其它月份,说明地表径流是输送营养盐入库的主要途径;沿入库河流至水库大坝方向,营养盐和Chl.a具有递减规律,即:河流区>过渡区>湖泊区.受季风的影响,丰水期的降水集中加上水库的本身形态是导致流溪河水库湖沼学特征呈显著的季节性和空间梯度的关键因素.     

神农架大九湖泥炭地溶解有机碳季节性变化及其影响因素

亚热带泥炭地在水源涵养、碳储存和生物多样性等方面有着重要的保护价值。溶解有机碳(DOC)是泥炭地中容易受到外界扰动的一部分碳，在气候变化和人类活动的双重影响下，DOC可能通过降解或横向迁移从泥炭地中流失，潜在地威胁了泥炭地的碳储存功能。然而，目前对于亚热带泥炭地DOC如何响应季节性尺度的环境变化还缺乏深入的认识。以位于北亚热带的神农架大九湖泥炭地为研究对象，开展了季节尺度的泥炭孔隙水DOC浓度和紫外-可见吸收光谱特征以及环境参数的监测。结果显示，在大九湖泥炭地中，表层0~10 cm的泥炭孔隙水DOC浓度和光谱参数具有明显的季节差异性，DOC浓度和光谱参数还表现出明显的深度差异性。相关性分析显示，DOC浓度及紫外-可见吸收光谱参数直接受控于泥炭孔隙水的电导率和氨态氮浓度，可能还间接受到泥炭地水位和孔隙水硝态氮浓度等因素的影响。以上结果表明，在亚热带季风气候条件下，季节性水位波动引起的泥炭水化学参数和营养盐的变化，可能显著改变表层泥炭DOC动态，需要重视这种季节性波动对亚热带泥炭地碳储存能力以及生态功能的影响。      

亚热带山区泥石流的形成过程

本文应用地貌学、水文学等方法进行了泥石流源地分类,阐述了各类源地泥石流形成过程,分析了各类源地的地貌演变对泥石流形成过程的影响。     

Weathering-pedogenesis of Carbonate Rocks and Its Environmental Effects in Subtropical Region

We investigated the weathering-pedogenesis of carbonate rocks and its environmental effects in subtropical regions of China. The investigation demonstrated that the weathering- pedogenesis of carbonate rocks is the process of a joint action of corrosion and illuviation and metasomatism in subtropical region. It is characterized by multi-stage, multi-path and multi-style. With the persisting development of weathering-pedogenesis of carbonate rocks, metasomatic pedogenesis progressively became the main process of the weathering-pedogenesis and the dominant style of formation of minerals. And it proceeds through the whole process of evolution of the weathering-pedogenesis of carbonate rocks. The stage evolution of weathering-pedogenesis of carbonate rocks and the fractionation evolution of newly produced minerals are characterized by obvious vertically zoning structures and the rules of gradation of elements geochemical characteristics in the carbonate rocks weathering profiles. The geochemical process of weathering-pedogenesis of carbonate rocks can be divided into three geochemical evolution stages, i.e., the Ca, Mg-depletion and Si, Al-enrichment stage; the Fe, Mn enrichment stage and the Si-depletion and Al-enrichment stage in the subtropical regions. Consistent with the three geochemical evolution stages, the sequence of formation and evolution of minerals can be divided into the clay mineral stage; the Fe, Mn oxide and the gibbsite stage. The influence of weathering-pedogenesis of carbonate rocks on the chemical forms of heavy elements is mainly affected via newly produced components and minerals in the process of weathering-pedogenesis, e.g., iron oxide minerals and organic matters. The important mechanism for the mobilization, transport and pollution of F and As is affected the selective adsorption and desorption of F and As on the surface of iron oxide minerals in the subtropical karst zones, i.e., the selective adsorption and desorption on mineral surfaces of newly produced minerals in the process of weath     

第四纪与喀斯特

对全球性喀斯特发育来说,第四纪时期是极为重要的时期。在第四纪时期,由于极地和山岳冰川的扩张,全球各个地区都受到了气候变化的影响。这种影响使热带、亚热带地区变得更为干旱甚至沙漠化。由于形成喀斯特的石灰岩对溶蚀风化作用特别敏感,喀斯特景观受到气候变化的巨大影响,尤其是受到降水、冰量和植被变化的影响。