共查询到19条相似文献,搜索用时 359 毫秒
1.
湿地生物地球化学研究 总被引:13,自引:0,他引:13
湿地生物地球化学是湿地生态系统生态过程的核心研究内容。为了系统认识和了解这一核心内容的研究现状和发展趋势,通过对大量的文献和实践研究成果的分析,阐述了湿地生物地球化学的内涵、研究意义、主要研究内容和研究方法;阐明了湿地生物地球化学过程与气温、水文、植被、土壤、生物等环境要素的关系;论述了湿地生态系统对相邻生态系统的作用与影响;分析了湿地系统温室气体排放特征、影响因素及其区域响应。湿地生物地球化学信息的提取与环境变化的关系研究将成为湿地环境研究的热点领域;湿地生物地球化学过程模型的建立,以及模型模拟的时空尺度转换,碳、氮、硫、磷、等营养物质的生物地球化学过程的研究将成为湿地生态过程的研究核心内容。湿地生物地球化学将成为湿地环境功能和服务功能的评价、湿地系统健康与稳定的诊断和退化湿地系统生态修复的重要基础理论。 相似文献
2.
MIS 3以来雅鲁藏布江流域风成沉积及环境意义 总被引:1,自引:0,他引:1
雅江流域风成沉积广泛发育,其气候指示意义及年代的界定尚不够清晰。从雅江全流域视角出发,全面分析了不同区域风成沉积的发育机制及模式,同时对风成沉积年代数据归一化处理,并与全球气候对比研究。结果表明:① 流域内风成沉积有盛行风场发育模式和局地风场发育模式,不同模式对环境的指示意义不同。② 雅江流域风成沉积多堆积于末次盛冰期(LGM)以后,且主要发育于晚冰期(15 ka BP)以来的不同时段,冰川退缩地表裸露,丰富的冲洪积碎屑物源可能是风成沉积发育的主控因素;更早时段的风成沉积因LGM后气候转暖、冰川消融所致的侵蚀搬运作用而未能保存。③ LGM以来风成沉积过程受区域及全球古气候环境共同控制,波动变化剧烈;其对30°N夏季太阳辐射、印度季风及西风变化信号的指示有所差异,但对YD等全球气候冷事件有较好记录,其沉积过程与高原面上其他区域既存在对全球古气候响应的同步性,又有其区域独特性。④ 流域内风成沉积的强烈堆积过程与全球气候变化并非简单对应关系,呈现出较复杂的响应模式。说明高山河谷环境的风成沉积除受大区域气候影响,还受许多局地环境因素控制,古气候环境的指示意义复杂。 相似文献
3.
全球气候恶化,洪涝、风沙、干旱等自然灾害频繁,科学研究预测区域乃至全球环境演变趋势,并采取有效措施加以防治,成为目前全人类面临的一大课题。要科学的掌握环境变化的规律,就必须研究过去的环境变迁,沉积物无疑是最好的研究对象。而湖泊在其发生发展过程中,直接出露于地表,其沉积物则是最好记录环境变化信息的载体。近几年来元素地球化学在研究湖泊演变历史,揭示湖泊环境变迁等方面取得了很大的进展。根据目前的研究现状,今后的工作应着眼于分析研究引起源泊环境变化的原因,环境演变与人类活动的关系及其演变规律,进而对未来环境演变趋势进行预测和对自然灾害进行防治,或许是今后湖泊沉积物元素地球化学研究的主要方向。 相似文献
4.
湖泊沉积记录在区域千年气候与环境变化方面的应用近年来发展迅速,成果令人瞩目。保存在各类湖泊岩芯中的气候指标如孢粉组合、地球化学元素、分子同位素、有机质色素、生物标志物等被广泛应用到气候因子的重建工作中。研究方法的改进、测年精度的提高、环境指标与气候因子之间的定量转换是今后湖泊沉积千年以来高分辨率研究的需要,此外还要重视加强多项环境指标的综合研究,寻求其它有效环境替代指标以及开展不同类型湖泊环境代理记录的对比研究。 相似文献
5.
6.
7.
区域性的湖泊水位能反映有效降水及气候变化,已成为重建第四纪降水和水量平衡最重要的指标。亚洲分布着几乎全球各种成因类型的湖泊,第四纪湖泊演化在全球第四纪研究中占有重要地位。多年来通过对地貌学、沉积学、生物地球化学和考古学的研究重建了各个区域的湖泊水位变化,并据此建立了湖泊演变数据库,作为研究第四纪亚洲区域气候变化的重要基础。本文介绍湖泊水位气候理论的发展历程,回顾晚第四纪亚洲湖泊水位研究的历史;分析晚第四纪亚洲从西到东不同区域湖泊水位变化历史和地域特征,并根据晚第四纪冰期和间冰期的两个特征期湖泊空间变化特征,从古气候模拟的角度探讨了气候驱动机制下湖泊水位变化的成因。 相似文献
8.
青藏高原湖泊沉积与环境演变研究:现状与展望 总被引:5,自引:0,他引:5
从空间尺度、不同时间尺度、重大气候环境变化事件、与其他研究结果的对比以及代用指标与气候要素的定量关系研究等几个方面总结了近十余年来青藏高原湖泊沉积与环境演变研究的主要成果。目前在高原上开展的湖泊沉积与环境演变研究主要分布在三个较为集中的地区:高原东北边缘区、高原西部西昆仑山湖泊群和高原中南部湖泊群。已有的湖泊沉积记录主要是以中长时间尺度的研究为主,而短时间尺度高分辨率的研究稍显不足。与其他地区全球变化研究结果的对比表明,湖泊沉积所反映的高原气候环境变化既具有全球性,又具有区域性的特征。湖泊沉积重建的环境序列的定量化研究仍处于探索阶段。由于湖泊沉积的环境代用指标存在着相对多解性,因此在实际研究中多学科交叉、多指标分析的方法是必需的。当前和今后需要深入开展环境代用指标与气候要素之间定量关系的研究,进一步提高沉积物定年的精确性,发现新的更为敏感的环境代用指标,不断完善多学科多环境代用指标的综合分析,并注重填补不同区域不同时间尺度的研究空白,加强高原上不同区域之间的对比研究。 相似文献
9.
海岸带土地利用/ 土地覆被变化研究进展 总被引:12,自引:0,他引:12
海岸带地区作为海洋、陆地和大气相互作用的区域, 其环境具有复杂性和多变性的特点, 海岸带地区土地 利用/土地覆被变化( LUCC) 研究是海陆交互作用( LOICZ) 研究的重要组成部分。介绍了海岸带LUCC 研究的目标、 内容以及海岸带LUCC 研究在全球变化研究中的地位和作用, 综述了国内外海岸带LUCC 研究的进展, 指出目前 在海岸带LUCC 研究中主要存在的问题: 即驱动力模型和机制研究相对欠缺; 对气候、水环境等的影响机理不明 确; 对环境脆弱地区的LUCC 研究甚少等。今后应该加强海岸带地区LUCC 物质通量研究、海岸带地区环境之间的 影响模式以及与海岸带区域可持续发展之间的关系模式研究。 相似文献
10.
简略回顾了华南热带亚热带古环境和现代环境研究在90 年代所取得的主要成果, 其主要表现在如下一些方面: 红土与全球变化研究, 海岸带沉积与海平面变化研究, 海洋沉积与环境变迁研究, 构造- 火山- 地貌与海陆环境变迁研究, 现代环境与应用第四纪研究, 等等。文中对进一步开展华南古全球变化和现代全球变化研究提出了若干设想 相似文献
11.
毛乌素沙地风沙环境变化研究的理论和新认识 总被引:2,自引:0,他引:2
作为地球环境系统的重要组成部分,沙漠和沙地对气候变化响应敏感。沙漠沙地的环境变化关系到区域的可持续发展,并且通过一系列反馈作用,会影响区域与全球的气候环境。位于中国北方中部的毛乌素沙地是全球中纬度地区的典型沙地,其环境变化与全球其他沙漠沙地具有相似性和同步性。中国学者对毛乌素沙地风沙环境变化的研究开展较早,在国内外有重要的影响。本文系统梳理了该方面的相关研究,围绕“风沙环境变化的过程与机制”这一核心问题,总结学术界在毛乌素沙地晚新生代形成发展、晚第四纪扩张与多旋回变化、全新世中期固定以及晚全新世沙丘再活化等方面取得的重要进展,尤其是获取了毛乌素沙地不同阶段风沙环境变化的关键证据,并据此提出“构造—轨道尺度上沙地形成与变化的全球温度变化驱动”“千年—百年尺度沙丘系统的非线性响应”等新的理论认识。未来应继续加强沉积证据的积累、新测试手段的拓展应用、基于过程分析的精细重建、数值模拟与预测等研究,着力探究风沙环境变化的动力学机制、人与干旱区环境复杂系统的耦合关系以及各圈层的互馈作用,这对于自然地理学学科传承、交叉学科的融合发展以及地球系统科学的理论构建都具有深远意义。 相似文献
12.
《地理学报(英文版)》2016,(7)
Land use and land cover change(LULCC) strongly influence regional and global climate by combining both biochemical and biophysical processes. However, the biophysical process was often ignored, which may offset the biogeochemical effects, so measures to address climate change could not reach the target. Thus, the biophysical influence of LULCC is critical for understanding observed climate changes in the past and potential scenarios in the future. Therefore, it is necessary to identify the mechanisms and effects of large-scale LULCC on climate change through changing the underlying surface, and thus the energy balance. The key scientific issues on understanding the impacts of human activities on global climate that must be addressed including:(1) what are the basic scientific facts of spatial and temporal variations of LULCC in China and comparative countries?(2) How to understand the coupling driving mechanisms of human activities and climate change on the LULCC and then to forecasting the future scenarios?(3) What are the scientific mechanisms of LULCC impacts on biophysical processes of land surface, and then the climate?(4) How to estimate the contributions of LULCC to climate change by affecting biophysical processes of land surface? By international comparison, the impacts of LULCC on climate change at the local, regional and global scales were revealed and evaluated. It can provide theoretical basis for the global change, and have great significance to mitigate and adapt to global climate changes. 相似文献
13.
Jiyuan Liu Quanqin Shao Xiaodong Yan Jiangwen Fan Jinyan Zhan Xiangzheng Deng Wenhui Kuang Lin Huang 《地理学报(英文版)》2016,26(7):889-903
Land use and land cover change (LULCC) strongly influence regional and global climate by combining both biochemical and biophysical processes. However, the biophysical process was often ignored, which may offset the biogeochemical effects, so measures to address climate change could not reach the target. Thus, the biophysical influence of LULCC is critical for understanding observed climate changes in the past and potential scenarios in the future. Therefore, it is necessary to identify the mechanisms and effects of large-scale LULCC on climate change through changing the underlying surface, and thus the energy balance. The key scientific issues on understanding the impacts of human activities on global climate that must be addressed including: (1) what are the basic scientific facts of spatial and temporal variations of LULCC in China and comparative countries? (2) How to understand the coupling driving mechanisms of human activities and climate change on the LULCC and then to forecasting the future scenarios? (3) What are the scientific mechanisms of LULCC impacts on biophysical processes of land surface, and then the climate? (4) How to estimate the contributions of LULCC to climate change by affecting biophysical processes of land surface? By international comparison, the impacts of LULCC on climate change at the local, regional and global scales were revealed and evaluated. It can provide theoretical basis for the global change, and have great significance to mitigate and adapt to global climate changes. 相似文献
14.
瓦窑沟剖面记录的早中全新世毛乌素沙地东南缘气候变化 总被引:1,自引:1,他引:0
毛乌素沙地位于中国东亚季风边缘区,对气候变化响应敏感。区域内分布着大量河湖相沉积地层,忠实记录了全新世以来气候变化状况。选取毛乌素沙地东南缘河湖相沉积地层为主的瓦窑沟剖面(WYG),在光释光(OSL)和14C(AMS 14C)测年基础上,对粒度、色度和有机质环境代用指标进行分析,反演得出毛乌素沙地早中全新世气候经历了3个阶段:约9.8 ka BP前气候干冷,广泛沉积沙层;9.8—9.6 ka BP气候逐渐回暖,为气候干冷转为暖湿的过渡期;9.6—5.2 ka BP气候相对暖湿,发育砂质泥炭层。推测计算得出,剖面地层沉积速率沙层>过渡层>砂质泥炭层,且各地层均存在次一级旋回,曲线旋回周期砂质泥炭层(480 a)>沙层(150 a)>过渡层(130 a),指示砂质泥炭层沉积速率最慢、形成时期气候相对稳定。研究结果与东亚季风区域古气候记录具有很好的可比性,是对东亚冬夏季风强度变化的全球性响应。 相似文献
15.
A. İdil Çakıroğlu Ü. Nihan Tavşanoğlu Eti E. Levi Thomas A. Davidson Tuba Bucak Arda Özen Gürçay K. Akyıldız Erik Jeppesen Meryem Beklioğlu 《Journal of Paleolimnology》2014,52(4):367-383
Cladocerans are valuable indicators of environmental change in lakes. Their fossils provide information on past changes in lake environments. However, few studies have quantitatively examined the relationships between contemporary and sub-fossil cladoceran assemblages and no investigations are available from Mediterranean lakes where salinity, eutrophication and top-down control of large-bodied cladocerans are known to be important. Here we compared contemporary Cladocera assemblages, sampled in summer, from both littoral and pelagic zones, with their sub-fossil remains from surface sediment samples from 40 Turkish, mainly shallow, lakes. A total of 20 and 27 taxa were recorded in the contemporary and surface sediment samples, respectively. Procrustes rotation was applied to both the principal components analysis (PCA) and redundancy analysis (RDA) ordinations in order to explore the relationship between the cladoceran community and the environmental variables. Procrustes rotation analysis based on PCA showed a significant accord between both littoral and combined pelagic–littoral contemporary and sedimentary assemblages. RDA ordinations indicated that a similar proportion of variance was explained by environmental variation for the contemporary and fossil Cladocera data. Total phosphorus and salinity were significant explanatory variables for the contemporary assemblage, whereas salinity emerged as the only significant variable for the sedimentary assemblage. The residuals from the Procrustes rotation identified a number of lakes with a high degree of dissimilarity between modern and sub-fossil assemblages. Analysis showed that high salinity, deep water and high macrophyte abundance were linked to a lower accord between contemporary and sedimentary assemblages. This low accord was, generally the result of poor representation of some salinity tolerant, pelagic and macrophyte-associated taxa in the contemporary samples. This study provides further confirmation that there is a robust relationship between samples of modern cladoceran assemblages and their sedimentary remains. Thus, sub-fossil cladoceran assemblages from sediment cores can be used with confidence to track long-term changes in this environmentally sensitive group and in Mediterranean lakes, subjected to large inter-annual variation in water level, salinity and nutrients. 相似文献
16.
E. Cuna E. Zawisza M. Caballero A. C. Ruiz-Fernández S. Lozano-García J. Alcocer 《Journal of Paleolimnology》2014,51(1):1-14
The Little Ice Age (LIA), AD 1350–1850, represents one of the most recent, persistent global climate oscillations. In Mexico, it has been associated with temperature decreases of 1.5–2 °C and mountain glacier advances, which are not accurately dated. We present new information about the nature of the LIA in central Mexico based on a decadal-resolution sediment sequence from high-altitude, tropical Lake La Luna, in the Nevado de Toluca volcano. We inferred past climatic and environmental changes using magnetic susceptibility, charcoal particles, palynomorphs, diatoms, cladoceran remains and multivariate statistics. The onset of the LIA corresponds with the beginning of a long-term trend to colder and drier climate ca. AD 1360–1910. The coolest and driest episode, ~AD 1660–1760, which corresponds with the Maunder Minimum in solar activity, was characterized by a cladoceran assemblage that showed the greatest dissimilarity to the modern one (no modern analogue), with the presence of cold-water species and Daphnia ephippia. The beginning of a warming trend ca. AD 1760, was identified by a diatom assemblage dominated by species with affinities for higher pH values (>6) and the greatest dissimilarity to the modern assemblage. This less cold, but still dry period, corresponds with historical reports of cattle and crop losses that predated the Mexican wars of Independence (AD 1810–1821) and Revolution (1910–1924). Modern conditions, established around AD 1910, resemble those during the Medieval Climate Anomaly (ca. AD 1200). No clear evidence of modern, human-induced environmental change was recorded, indicating that Lake La Luna is an ideal site in Mexico to monitor future impacts of global change. 相似文献
17.
Anthropogenic Climate Change: A Reason for Concern Since the 18th Century and Earlier 总被引:1,自引:0,他引:1
During the last 20 years the concept of anthropogenic climate change has left academic circles and become a major public concern. Some people consider ‘global warming’ as the major environmental threat to the planet. Even though mostly considered a novel threat, a look into history tells us that claims of humans deliberately or unintentionally changing climate is a frequent phenomenon in Western culture. Climate change, due to natural and anthropogenic causes, has often been discussed since classical times. Environmental change including climate change was seen by some as a biblical mandate, to ‘complete the Creation’. In line with this view, the prospect of climate change was considered as a promising challenge in more modern times. Only since the middle of the 20th century, has anthropogenic climate change become a menacing prospect. The concept of anthropogenic climate change seems to be deeply embedded in popular thinking, at least in Europe, which resurfaces every now and then after scientific discoveries. Also, extreme weather phenomena have in the past often been explained by adverse human interference. A list of claims of anthropogenic climate modifications is presented; the remarkable similarity of the anthropogenic climate change debate in the second half of the 19th century is compared to the present situation. Of course, the present threat seems much more real than any of the historical predecessors, which turned out to be overestimated. 相似文献
18.
黄土高原和鲁西南案例区乡村居民对全球气候变化认知 总被引:1,自引:0,他引:1
基于甘肃省会宁县黄河灌溉区、旱作农业区和山东省单县农业区的问卷调查,分析了案例区乡村居民对全球气候变化认知的一般特征、减缓全球气候变化的能力认知、义务认知和支付意愿及其区域和社会人口差异。研究发现:案例区乡村居民普遍关注全球气候变化,但对全球气候变化概念和发生原因的理解较肤浅。一定程度上,受访者通过当地气候变化及其影响来理解全球气候变化;受访者认为中央政府和国际组织应为减缓全球气候变化负主要责任,个人和家庭在减缓气候变化方面能力有限、支付意愿低,不同文化程度和职业受访者认知差异明显;存在原因认知决定责任者归属和能力认知、进而决定支付意愿的因果链,作者据此提出了政策建议。 相似文献
19.
地质历史过程中全新世时期是一个温暖湿润的间冰期气候过程,中间出现过多次变冷或变干的快速气候事件。BL剖面位于库姆塔格沙漠东南缘,是一典型的风成砂黄土沉积地层,沉积厚度约350 cm。通过沉积地层光释光测年和沉积物粒度变化分析,结果显示:(1)BL剖面沉积的年代始于8.3 ka,处在全新世早期;(2)区域干旱气候条件下,反映冬季风的代用指标则以粗端组分含量为主,BL剖面沉积物平均粒度受到颗粒粗端的影响较大,对比3个不同粗颗粒组分含量所指示的古气候变化,选用>110 μm的沉积物颗粒组分含量作为冬季风研究的替代性指标,具有较好的指示意义;(3)剖面粒度对全新世中晚期的6次气候快速变化过程均有不同程度的记录,其特点是对全球性冷事件敏感性较强,对干旱事件响应较弱。对库姆塔格沙漠地区全新世气候过程的研究,可为极端干旱区域气候对全球气候变化过程的响应提供一定借鉴。 相似文献