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岩溶土壤的生态地球化学特征及其指示意义——以贵州贞丰—关岭岩溶石山地区为例 总被引:18,自引:0,他引:18
岩溶石山地区土壤退化与恢复的成因和机理一直是近年来土壤学和生态学研究的热点。以贵州西南部贞丰—关岭岩溶石山区为对象,选择了区内退化地、农用地、恢复地等生态样块以及与未退化地为对照,采集了其中的表层和亚表层土壤,分别进行了土壤的养分库量、微生物活性与功能和土壤酶活性等化学分析。研究表明土壤养分库是土壤中微生物活性基础,微生物量碳随土壤养分库容的退化或恢复而相应变化,退化岩溶地植被恢复3~6年后,主要养分总库容得到明显恢复(恢复程度55%~65%),因而带动了微生物量碳的恢复(平均恢复程度60%以上),但养分的活性(有效磷)、微生物的功能(呼吸熵及土壤脲酶和磷酸酶活性)并没有得到相应程度的恢复(平均恢复程度仅在25%~40%)。这些结果提示,限制性养分活性和微生物功能的恢复是植被恢复下生态系统健康水平的重要指示。因此,在分析岩溶土壤和生态系统退化过程的本质以及评价生态恢复的效应时,不仅应将微生物量碳和总养分库指标作为岩溶土壤退化恢复的指标,更应将微生物区系的质量和功能指标纳入关键评价内容。 相似文献
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全球变化中土壤信息系统的研究进展 总被引:7,自引:0,他引:7
地理信息系统(GIS)支持下的土壤信息系统(SIS)在评价土地生产能力、土地退化的现状、速率和风险以及全球变化研究中具有重要意义。简述了国内外SIS的研究进展,包括FAO世界土壤图的出版和修正、数字化世界土壤资源数据库(SDB)的建立、土壤—土地数字化数据库(SOTER)在全世界的进展、世界土壤排放清单(WISE)的发展以及美国和我国的SIS进展情况。在此基础上简介了土壤属性空间变异性的研究方法———地形分析和地质统计学,并指出地质统计学与GIS的结合将是未来的发展趋势。 相似文献
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地质微生物学中几项最新研究进展 总被引:3,自引:0,他引:3
地质微生物学是地质学和微生物学之间的交叉学科,在过去的十几年中已取得了突飞猛进的发展。该研究领域涉及全球许多种极端环境,例如从地下深部结晶岩、古沉积岩、到现代超盐度湖泊、干旱的沙漠和热液喷口系统等。因为地质微生物学进展的综述可能要用一本专著方可阐述清楚,作者在此仅对地质微生物学几个活跃的前缘研究领域进行了综述,包括大陆深部、盐碱环境、干旱沙漠等极端环境中的微生物生态,白云石的微生物成因,古代沉积岩中的微生物古DNA及其环境意义以及海洋地质微生物学等几个方面。这些研究证明了将地质过程和微生物作用联系起来的重要性。 相似文献
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Zhang Xuhui Shao Qianqian Ding Yuanjun Cheng Kun Bian Rongjun Liu Xiaoyu Zheng Jufeng Li Lianqing Pan Genxing 《地球科学进展》2016,31(10):1012-1020
2015 is the International Year of Soil (IYS) adopted by the 378th Congress of the United Nations. The Status of the World’s Soil Resources was released by the Food and Agriculture Organization of the United Nations, which was the policy report about the status of the world soil resources for the first time. The universal values of the global community were strengthened by the challenges for the global society from the risk and safety of the change of soil quality, functions, services and soil health. One third of the world soil resources were suffering serious degradation, which could affect the food security in the future, regional development and local conflicts in the report. The major task of the global monitoring, regulation and management of the world soil resources and the social responsibility of supporting the sustainable soil management by education, research and technology development were highlighted. The social responsibility and global development trends of soil science and management strategies were discussed by the keywords, the distribution of contributing authors and the citation of the references, as well as the main contents of the report. The keywords distribution of the report showed that the focus of the soil research included the change of soil quality, processes, functions and services induced by the natural driving forces, human’s activity and soil degradation, as well as the hotspots covered soil carbon/nitrogen-water-biological pool and distribution related with the biogeochemistry, global climate change and ecosystem functions and human health. The number and structure of the cited papers showed that the integration research based on the mega-data analysis were the prominent development trend of the soil science. The geographic distribution of all the contributing authors showed that dominant discourse of the global soil science were grasped by the developed countries including Europe and the United States, China had just limited effects on the global soil science. It is urgent to promote China’s soil science research and the services for global society. 相似文献
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土壤碳固定与生物活性:面向可持续土壤管理的新前沿 总被引:11,自引:1,他引:10
Pan Genxing Lu Haifei Li Lianqing Zheng Jufeng Zhang Xuhui Cheng Kun Liu Xiaoyu BianRongjun Zheng Jinwei 《地球科学进展》2015,30(8):940-951
土壤碳固定研究是近10年土壤学研究的重要前沿,而可持续管理的土壤固碳是当前应对气候变化和全球土壤退化的重大需求。从土壤有机碳的生态系统功能及服务出发,分析了土壤碳固定与土壤功能及生物活性的关联,评述了当前土壤碳固定与微生物活性变化的认识,探讨了土壤团聚体尺度土壤固碳与生物活性的关系,并以水稻土为例讨论了土壤碳固定中团聚体过程及其有机碳—微生物—生物活性的演进关系,提出了土壤碳库稳定性与生物活性的协同关系及其表征问题,特别是如何通过有机质—微生物—酶活性的团聚体分布揭示土壤碳固定的本质,以及良好管理下土壤固碳与生态系统功能的协同特征及其管理途径等优先科学问题。借助非破坏团聚体分组技术和现代微域原位观察分析技术,土壤学已经能从团聚体尺度深入研究土壤固碳与生物活性的土壤机制,这将全面地揭示土壤固碳对于生态系统过程、功能及服务的影响特质,进而为可持续土壤固碳和农田有机质提升,为固碳减排与农田生产力提升及土壤环境服务改善协同发展提供科学依据和管理的政策依据。 相似文献
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Soil erosion is a serious global environmental problem which limits the survival and development of human beings. In our country, due to the special physical geography and socio-economic conditions, soil erosion intensity is great, which is particularly prominent in Loess Plateau region. Therefore, preventing and controlling soil erosion, as well as reducing soil erosion in Loess Plateau have become the key to solving environmental problems in the region. Soil erosion on Loess Plateau is serious, and grassland vegetation has good effects on soil and water conservation, which can improve ecological environment well. After the implementation of the project about returning farmland to grassland on Loess Plateau, the ecological benefits mainly focused on soil and water conservation benefits, soil improvement benefits, water conservation benefits and species diversity benefits, etc. Grassland vegetation has an irreplaceable role in the construction of the ecological environment on Loess Plateau. Therefore, the role of grassland in preventing soil erosion has received more and more attention. Scholars have done lots of research involved in the relationship between grassland coverage and soil erosion, impacts of grassland on hydrodynamic parameters, effects of grassland on soil properties, reduction effects of grassland on runoff and sediment, and soil erosion process on grassland slope. However, there is little research on erosion effect induced by grassland cover. This paper mainly pointed out the following questions: First, grassland cover is influenced by many factors, but the relationship with soil erosion from the dynamic mechanism is rarely discussed; Second, there is no well-developed theory of overland flow erosion at present, which limits the study of hydrodynamic parameters on grassland slope; Third, establishment of mathematical model between grassland cover and soil resistance can accelerate the quantitative analysis of grassland influence on erosion; Fourth, comprehensive analysis of influencing factors on water reduction and sediment reduction effect on grassland are insufficient; Fifth, there are not many mechanisms to analyze the erosion process of grassland slope by using the hydrodynamic characteristics of slope; sixth, research results on grassland-induced erosion are mainly focused on leading to soil dry layer and we should continue to strengthen in the future. This paper summarized the previous results, and supplemented some studies about erosion caused by grassland, then pointed out the existing problems in current research and the areas that need to be strengthened in the future, aiming at reducing soil erosion on the Loess Plateau. 相似文献
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退化喀斯特植被恢复过程中土壤微生物活性研究——以贵州花江地区为例 总被引:4,自引:0,他引:4
退化喀斯特植被的恢复机理一直是近年来土壤学和生态学研究的热点。通过分析退化喀斯特植被恢复过程中土壤微生物数量、土壤生化作用强度、土壤微生物生物量,研究了贵州花江喀斯特高原生态综合治理示范区内土壤微生物活性的变化。结果表明:退化喀斯特植被恢复过程中土壤的微生物活性存在较大差异。随着退化喀斯特植被的恢复,土壤细菌、真菌、放线菌三大微生物数量及微生物总数明显上升,表现为乔木群落阶段〉灌木群落阶段〉草本群落阶段〉裸地阶段,且细菌较真菌和放线菌相比占绝对优势,其在微生物总数中分别占95.95%,93.49%,92.32%和92.48%;各主要生理类群的数量呈上升趋势,且氨化细菌〉固氮菌〉纤维素分解菌〉硝化细菌,土壤生化作用强度增强;土壤微生物生物量碳明显增加,微生物生物量碳与土壤有机碳(P〈0.01)呈显著正相关关系。土壤微生物是表征退化喀斯特植被恢复过程中土壤质量的重要特征之一,反映出随着退化喀斯特植被的恢复土壤质量也在逐渐恢复。 相似文献
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Sang Shilei Dai Heng Hu Bill X. Huang Zhenyu Liu Yujiao Xu Lijia 《Hydrogeology Journal》2022,30(6):1833-1845
Microbes live throughout the soil profile. Microbial communities in subsurface horizons are impacted by a saltwater–freshwater transition zone formed by seawater intrusion (SWI) in coastal regions. The main purpose of this study is to explore the changes in microbial communities within the soil profile because of SWI. The study characterizes the depth-dependent distributions of bacterial and archaeal communities through high-throughput sequencing of 16S rRNA gene amplicons by collecting surface soil and deep core samples at nine soil depths in Longkou City, China. The results showed that although microbial communities were considerably impacted by SWI in both horizontal and vertical domains, the extent of these effects was variable. The soil depth strongly influenced the microbial communities, and the microbial diversity and community structure were significantly different (p < 0.05) at various depths. Compared with SWI, soil depth was a greater influencing factor for microbial diversity and community structure. Furthermore, soil microbial community structure was closely related to the environmental conditions, among which the most significant environmental factors were soil depth, pH, organic carbon, and total nitrogen.
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Urban soil research has invoked great interest in recent years.Previous studies were mainly focused on urban soil physics and chemistry,and soil geography to constrain the source,distribution,transport and deposition of pollutants such as heavy metals and health-hazardous organic matter,bu t litte has been done on soil microbiology.In this paper,the authors reported the variation of microbial features in urban soils compared with those from adjacent rual areas.The results show great changes in basal respiration rates microbial biomass and ecophysiological parameters have taken place in urban environment because of the anthropogenic stress, thus activating the microorganisms.As a result,much more energy,carbon is consumed at a low utilization efficiency.So microbial biosensors can be used to indicate urban environmental pollution effectively. 相似文献
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极端环境下的微生物及其生物地球化学作用 总被引:7,自引:1,他引:6
极端微生物是地球生物圈的重要组成部分。极端微生物的地球化学定位在微生物学与地球化学以及一些相关学科的交叉点上,最近10年已经发展成为地质生物学研究的热门领域。对极端微生物的研究不仅有助于回答生命起源、生命极限、生命本质甚至其他生命形式等生命科学问题,而且其生物地球化学作用在地球系统科学研究中具有重大科学研究价值,对揭示生物圈与地圈协同演化的奥秘、认识生命与环境相互作用规律及地球的化学演化提供重要证据。总结了嗜热菌、嗜冷菌、嗜酸菌、嗜碱菌、嗜压菌、嗜盐菌以及抗辐射菌的主要类群,论述了极端微生物适应环境的机制,探讨了极端微生物的生物地球化学意义。作者预测未来将会在生物标志化合物研究、同位素地球化学分析和分子生物学综合研究的基础上协同推进极端微生物地球化学学科的发展。 相似文献
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《Geoforum》2017
The role of ‘quality of place’ (QoP) in attracting and retaining workers has been a significant concern of urban related policy makers and research communities over the past decade. This paper aims to address the significance of QoP factors in attracting and/or retaining global talent by presenting the findings and implications of a study into the relocation decisions of expatriate workers in Suzhou, China. Findings from a survey questionnaire indicate that global talent moving to Suzhou have been driven primarily by career-related opportunities instead of QoP factors. However, binary logit analysis shows that QoP factors have contributed positively towards the retention of global talent in the city. 相似文献
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岩石矿物的微生物风化是地球表层系统最为活跃和普遍发生的地质营力之一。微生物对含钾岩石(以硅酸盐矿物为主)的风化能够释放其中的钾、硅和钙等元素,并在合适的环境条件下促进矿物元素的碳酸化沉淀,这是地表元素地球化学循环的重要环节之一。微生物对岩石的生物转化作用既涉及微生物的生长繁殖和代谢调控,也与元素的迁移转化和次生矿物的演化序列有关,具有重要研究价值。采用矿物学、微生物学和分子生物学等相结合的研究方法,有助于系统地研究微生物促进含钾硅酸盐矿物的风化并耦联碳酸化过程及其分子调控机制。研究证实,在纯培养条件下,微生物风化含钾矿物主要采用酸解、螯合、氧化还原等多种方式的协同作用,并可通过调控相关功能基因的表达来响应缺钾的环境以实现其对含钾矿物的有效风化,显然这有赖于微生物通过长期进化而形成的精细的分子调控机制。在土壤生态环境中,微生物对矿物风化的显著特征是该生态环境中微生物群落协同互作的群体作用效应。微生物碳酸酐酶参与的硅酸盐矿物风化伴随碳酸盐矿物的形成过程可能是个长期被忽视的地表碳增汇过程,对该问题的深入探索有助于进一步理解地质演化历史中微生物对碳素迁移转化的驱动机制。加入含钾硅酸盐矿粉的有机肥已经显示出其在土壤改良、作物生长和增加土壤碳汇等方面的正面应用效果,这为利用硅酸盐矿物的生物风化作用来延缓大气CO2浓度的持续升高提供了新的思路。介绍了有关微生物对含钾岩石生物转化释放钾素的分子机理及其碳汇效应方面的研究进展,以期抛砖引玉,推动该领域研究的快速发展。 相似文献
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土壤碳动力学同位素示踪研究进展 总被引:1,自引:1,他引:0
土壤是陆地生态系统中最大的碳库。土壤碳动力学旨在研究土壤有机碳库的大小及更新速率。土壤有机碳库可分为 3个亚碳库:"活动"、"缓慢"和"稳定"碳库。碳同位素特别是 14 C可作为研究土壤碳动力学的理想示踪剂;δ 13 C值是定量研究C3和C4植被更替历史的有效手段; 14 C示踪及年代测定与 13 C信号联合使用,可以估算土壤碳库的大小和驻留时间。碳同位素示踪应用于土壤碳动力学研究取得了较大进展,但是由于缺乏可靠的全球数据库和标准方法来量化土壤有机碳库,导致对土壤各亚碳库的大小和更新速率以及土壤CO2的估算仍存在较大的不确定性,从而难以估计土壤碳库大小的变化对大气CO 2浓度和全球气候变化的潜在贡献。 相似文献
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《China Geology》2019,2(2):227-237
Research on the biomineralization in modern seafloor hydrothermal systems is conducive to unveiling the mysteries of the early Earth’s history, life evolution, subsurface biosphere and microbes in outer space. The hydrothermal biomineralization has become a focus of geo-biological research in the last decade, since the introduction of the microelectronic technology and molecular biology technology. Microorganisms play a critical role in the formations of oxide/hydroxides (e.g. Fe, Mn, S and Si oxide/hydroxides) and silicates on the seafloor hydrothermal systems globally. Furthermore, the biomineralization of modern chemolithoautotrophic microorganisms is regarded as a nexus between the geosphere and the biosphere, and as an essential complement of bioscience and geology. In this paper, we summarize the research progress of hydrothermal biomineralization, including the biogenic minerals, the microbial biodiversity, and also the interactions between minerals and microorganisms. In the foreseeable future, the research on hydrothermal biomineralization will inspire the development of geosciences and biosciences and thus enrich our knowledge of the Earth’s history, life evolution and even astrobiology.© 2019 China Geology Editorial Office. 相似文献
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西南喀斯特地区土壤退化过程与机理探讨 总被引:44,自引:0,他引:44
自1971年FAO提出“土壤退化”的概念并出版Land Degradation以来,土壤退化问题日益受到人们的关注。随着土壤退化及土壤质量下降对全球食物安全、环境质量及人畜健康影响的日益凸显,土壤退化的研究已成为全球环境变化研究的重要组成部分,尤其是土壤退化的发生过程、机理和演变动态是目前土壤退化研究的前沿和热点问题。中国西南喀斯特山区位于世界三大连片喀斯特发育区之一的东亚片区中心,喀斯特地貌广泛发育,地形条件复杂,生态环境脆弱,土壤侵蚀退化严重。结合西南喀斯特地区的地质地理背景、生态环境特性从生物、化学、物理等角度对西南喀斯特地区土壤退化的过程与机理进行了分析和探讨。西南喀斯特地区的环境脆弱性只是土壤严重侵蚀退化的前提或内因,日益尖锐的人地矛盾导致的植被破坏和退化才是喀斯特土壤侵蚀退化的关键驱动力。西南喀斯特山区土壤退化的过程即是土壤结构劣化、土壤质地和孔隙性变差、土壤水分性能退化、土壤贫瘠化的过程,以上各退化要素形成相互影响相互催化的正反馈循环,加剧土壤的迅速退化。其中,土壤水分和土壤肥力尤其是土壤水分是喀斯特地区土壤退化关键退化因子。 相似文献