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1.
农业在生物多样性维持方面扮演重要角色,农业既是生物多样性的传递者,同时集约化农业也是导致生物多样性降低的主要原因。"土地共享"和"土地分离"是重要的协调粮食产量和生物多样性保护的土地利用策略,前者关注的是农田环境的改善,后者指通过土地利用集约化,提高作物单产,释放出更多土地用于自然保护。目前,对于哪一种土地利用方式更有利于生物多样性保护仍是有争议的。本研究综述了上述两种土地利用策略的优缺点及其对生物多样性的影响,并分析归纳了应用和选择土地利用方式时应考虑的因素,如:对集约化敏感的物种;景观背景、景观尺度和景观结构;社会经济因素等。在此基础上,展望了该理论对我国未来农业发展的启示,包括:因地制宜规划农业景观格局,如考虑区域的产量潜力和特有物种;发展可持续集约化农业和加强"溢出效应"的管理,提高生态系统自我恢复能力;在不同景观尺度上建立土地共享-分离混合模式,在集约化农业地区适度恢复农用林业。 相似文献
2.
生态农业景观与生物多样性保护及生态服务维持* 总被引:5,自引:3,他引:2
现代集约化的农业生产极大地改变农业景观生物多样性状况及生态系统服务功能,进而影响到农业可持续发展。大量研究显示,农业生态系统中物种多样性维持、害虫控制、传花授粉等生态系统服务功能受到景观结构的影响,仅仅改变集约化的生产方式,并不足以促进生物多样性的恢复及生态系统服务的维持,尚需考虑景观结构的调整和管理。从不同尺度上优化景观要素的空间配置和景观管理方式、建设生态农业景观成为促进农业景观生态系统服务功能维持、保护生物多样性和农业可持续发展的重要措施,具体包括:1)在区域和景观尺度上合理规划和配置种植区域和非种植区域以确保生态安全与稳定性;2)在地块间尺度保护、建设和管理甲虫带、野花带等生态设施,为农业生产提供必要生态系统服务;3)在地块内尺度通过多样化的种植和优化管理措施以获取农业生产和自然保护之间的平衡;4)整合景观规划设计与生态循环工程以促进农业景观资源的高效利用。 相似文献
3.
农业景观异质性对生物多样性及其
生态系统服务的影响 总被引:4,自引:1,他引:3
农业景观中生物多样性具有特殊重要的意义,本文首先综述了农业景观异质性的组成和特征。农业景观的异质性不仅包括空间组成和构型异质性以及时间异质性,更应包括基于物种或功能类群认识的农业景观功能异质性,这对于讨论景观异质性与生物多样性的关系十分关键。纵览景观空间异质性和时间异质性对生物多样性的多尺度影响发现,很多研究证实非农生境对于维持农业景观中生物多样性十分必要,由非农生境斑块和农田基质组成异质性较高的农业景观往往促进生物多样性,不同生物类群对景观异质性的响应尺度不同。景观结构和种间作用的复合影响是异质性农业景观维持生物多样性的机制。景观异质性通过生物多样性的组成和分布进而影响其提供的生物控制、授粉和物质循环等生态系统服务。结合黄河中下游平原农业景观异质性特征及其对生物多样性影响系列研究结果,在联产承包责任制下小田块管理的农业景观中,未来相关研究应基于功能景观的时空异质性深入讨论农业景观对生物多样性及其生态系统服务的影响机制,为可持续农业景观的构建提供科学依据。 相似文献
4.
稳定性是生态系统保持或恢复自身结构和功能的能力,是维持生态系统服务功能的关键。近年来全球植被稳定性面临重大威胁,生态系统稳定性的研究逐步成为生态学的热点问题。本文综述了稳定性的定义、空间格局及其影响机制,指出了当前研究存在的问题,并对未来发展提出展望。目前研究发现,生态系统稳定性是一个多维结构,主要包括抵抗力、恢复力和时间稳定性三个方面。稳定性及其影响机制具有很强的空间异质性与尺度依赖性,主要表现为在站点尺度由生物多样性等生物因素控制,而在区域及全球尺度则由温度、降水、辐射等非生物因素控制。目前植被稳定性的研究中尚存在数据源噪声难以去除,量化方法未标准化等问题。未来稳定性的研究可逐步由站点等局部尺度向区域、大陆等全局尺度扩展,并形成标准化的稳定性评估方法。 相似文献
5.
农业规划环评中生物多样性影响评价研究 总被引:2,自引:1,他引:1
介绍了农业规划环评中生物多样性影响评价的背景、基本内涵和主要内容,概述了生物多样性评价的基本程序和工作内容。针对农业规划环评中生物多样性影响评价几乎是空白的现状,从农区和农业角度,提出农区遗传多样性、农区物种及生境多样性、农区生态系统多样性、农区景观多样性、农业产业结构多样性5个评价尺度,逐一分析了各尺度生物多样性影响评价的主要内容和特点。特别指出在环评实际工作中,应把遗传多样性影响评价的内容与物种多样性、生态多样性影响评价融合在一起描述;对农业产业结构多样性,强调评估当地生物多样性变化可能带来的经济价值变化。最后,提出加强农区生物多样性影响评价的有关建议。 相似文献
6.
生物多样性对生态系统功能及其稳定性的影响 总被引:3,自引:0,他引:3
生物多样性导致生态系统功能优化学说、组分有机体功能特点决定生态系统功能观点及一些中间观点的提出使生态学界对生物多样性与生态系统功能之间关系的研究结果各异,但关键种的丧失会严重损害生态系统功能是肯定的。对结构多样性的生态系统来说,关键种能稳定生态系统功能,并在一定程度上缓冲波动带来的压力。生物多样性与生态系统稳定性间关系的研究亦未形成共识,一般看法是生物多样性降低会导致生态系统稳定性下降。但也有与之不同的看法,认为多样性与稳定性间无任何关系。对局部多样性、区域多样性及全球范围内生物多样性改变及其相应保护措施的研究比较后认为,应为不同物种提供适合其繁殖条件的局部试验地块,用个体小的物种来控制区域生物多样性及通过各种自然试验方法增加不同范围内的生物多样性。 相似文献
7.
在对青海湖高寒湿地进行群落调查的基础上,研究了在群落梯度上高寒湿地的生物多样性与生产力的关系,并探讨了在同一区域内环境的整体性对高寒湿地的生物多样性与生产力关系的影响。运用SPSS软件进行曲线拟合,研究了青海湖内陆高寒湿地物种多样性和地上生物量的关系。研究结果表明,(1)无论是在群落尺度上还是在区域尺度上物种多样性指数与地上生物量呈显著的负相关。(2)在研究区内区域因素对物种多样性和生产力的影响较弱,但如果保持区域环境的整体性则可以有效地提高物种多样性和生产力的相关程度。 相似文献
8.
施用有机肥对土壤生物性状影响的研究进展 总被引:19,自引:1,他引:18
施肥是农业生态系统中的重要一环,因土壤生物特性如土壤酶活力、微生物量、呼吸以及生物多样性等对外来扰动的灵敏性优于理化特性而在近几年受到了广泛关注。长期配施有机肥能显著调节土壤营养环境,提高微生物碳氮含量,降低代谢呼吸商值并提高多种土壤酶的活力和土壤生物多样性,为作物稳产高产创造良好的土壤生态环境,而化肥施用的效果恰相反。土壤生物特性的变动关系到土壤质量、农业生产的产量以及生态系统的稳定,本文综述了近几年国内外关于施用有机肥对土壤生物性质影响的研究结果。 相似文献
9.
基于土壤生物空间异质性分析的空间土壤生态学研究 总被引:5,自引:0,他引:5
土壤生物以不同的方式改变着土壤的物理、化学和生物学特性。了解土壤生物的空间异质性是很关键的。土壤生态学和空间生态学结合的新的研究领域─空间土壤生态学关注空间在土壤生物种群结构及动态中的重要性。本文通过对土壤生物空间异质性的分析,内容包括空间土壤生态学的提出、土壤生物空间异质性研究的意义、研究方法,重点综述了影响土壤生物分布格局的因素、尺度,土壤生物空间分布对植被-土壤系统的影响,土壤生物空间异质性的作用,其中包括土壤生物空间异质性与多样性的关系、土壤生物对局部干扰的响应、土壤生物空间格局对植被的影响。 相似文献
10.
生物多样性保护作为生态系统的支持性基础功能,其价值评估受到普遍关注,但评价方法一直是困扰学界的主要问题。基于能值理论对我国荒漠生态系统动物物种多样性保护价值进行核算,并参考世界自然保护联盟(IUCN)物种濒危等级分级标准,计算引入濒危指数对动物物种由于其稀缺性得到的价值增值。结果显示,我国荒漠生态系统动物物种多样性保护总价值为35万1 000亿元,其中稀缺性价值为3万6 400亿元,哺乳动物保护价值占总价值的52.41%,鸟类保护价值占42.04%。结果表明,我国荒漠生态系统具有巨大的动物物种多样性保护价值,其价值分布趋势由东向西、由南向北递增。从研究范围内各省区的情况来看,新疆的动物物种多样性保护价值最高,为21万1 000亿元,青海、西藏、内蒙古、甘肃价值数接近,陕西、山西、河北、吉林、黑龙江、辽宁价值较低。 相似文献
11.
Matthew A. Bowker Fernando T. Maestre Cristina Escolar 《Soil biology & biochemistry》2010,42(3):405-417
Despite that soils may be the greatest repository of biodiversity on Earth, and that most terrestrial ecosystem functions occur in the soil, research on the role of soil biodiversity in ecosystem function has lagged behind corresponding research on aboveground organisms. Soil organisms pose special problems to biodiversity-function research, including the fact that we usually do not know their identity nor what they do in soil ecosystems, cannot easily estimate their biodiversity, and cannot culture the majority of the organisms for use in manipulative experiments. We propose here that biological soil crusts (BSCs) of deserts and many other ecosystems may serve as a useful model system for diversity-function research because the species concept is relatively well-defined within BSC organisms, their functional attributes are relatively well-known, and estimation and manipulation of biodiversity in experiments are feasible, at least within some groups of BSC biota. In spite of these features, there is a pronounced lack of research on biodiversity-function using these organisms. At least two complementary approaches are possible: experiments using artificially-constructed BSCs, and observational studies which statistically control for the effects of other factors which are likely to covary with biodiversity. We applied the latter to four observational datasets collected at multiple spatial scales in Spain and the United States using structural equation models or path analysis using ecosystem function indicators relating to hydrology, trapping and retention of soil resources, and nutrient cycling. We found that, even when total BSC abundance and key environmental gradients are controlled for, direct and approximately linear relationships between species richness and/or evenness and indicators of ecosystem functioning were common. Such relationships appear to vary independently of region or spatial scale, but their strength seems to differ in every dataset. Functional group richness did not seem to adequately capture biodiversity-function relationships, suggesting that bryophyte and lichen components of BSC may exhibit low redundancy. More research employing the multi-trophic, multi-functional, and manipulable BSC system may enable more rapid understanding of the consequences of biodiversity loss in soils, and help enable a biodiversity-function theory that is pertinent to the numerous ecosystem services provided by soil organisms. 相似文献
12.
Víctor Rolo David Rivest Émilie Maillard Gerardo Moreno 《Soil Use and Management》2023,39(3):1006-1032
Agricultural systems face several challenges that threaten their capacity to feed the world while maintaining a healthy and functional environment. Climate change, together with soil degradation, biodiversity loss, resource scarcity and invasive species, is a major threat to agricultural systems worldwide. In this context, new practices have been proposed to circumvent or minimize these threats. Yet, these mostly focus on the farm or plant level (e.g., breeding for stress-tolerant species), while frequently overlooking belowground components (e.g., soil organic carbon accrual). By interlinking above- and below-ground components, the likelihood of limiting the negative effects of current threats to agricultural systems can be maximized. This review explores current knowledge regarding agroforestry and its effects on belowground components as a key property in the reducing effects of climate change. We first review tree effects on key soil properties of agricultural systems. We synthesize evidence regarding agroforestry systems response to current environmental threats that are related to climate change. We continue by discussing how soil processes play a fundamental role in the capacity of agroforestry systems to cope with climate change. We conclude by proposing options on how resilience of agroforestry systems could be further enhanced. 相似文献
13.
Spatial variation is a ubiquitous feature of natural ecosystems, especially in arid regions, and is often present at various scales in these regions. To determine the scale dependence of the heterogeneity of soil chemical properties and the dominant scales (factors) for soil heterogeneity in arid regions, the spatial variability of soil resources was investigated in the Gurbantunggut Desert of Central Asia at the scales of 10-3, 10-2, 10-1, 100, 101, 102, 103 and 104 m (from individual plant to population or community to ecosystem). Soil chemical properties including pH, electrical conductivity (EC), organic carbon, total nitrogen, available nitrogen, total phosphorus, and available phosphorus were considered in the investigation. At a scale of 10-1 m, which represented the scale of individual plant, significant enrichment of soil resources occurred under shrub canopy and "fertile islands" formed in the desert ecosystem. Soil EC exhibited the largest heterogeneity at this scale, indicating that individual plants exerted a great influence on soil salinity/alkalinity. Soil nutrients exhibited the greatest heterogeneity at a scale of 102 m, which represented the scale of sand dune/interdune lowlands (between communities). The main important factors contributing to soil spatial heterogeneity in the Gurbantunggut Desert were individual plants and different topographic characteristics, namely, the appearance of vegetation, especially shrubs or small trees, and existing sand dunes. Soil salinity/alkalinity and soil nutrient status behaved differently in spatial heterogeneity, with an inverse distribution between them at the individual scale. 相似文献
14.
Soils and crops are particularly vulnerable to climate change and environmental stresses. In many agrosystems, soil biodiversity and ecosystem services provided by soils are under threat from a range of natural and human drivers. Agricultural soils are often subject to agronomic practices that disrupt soil trophic networks and make soils less productive in the long term. In this scenario, sustainable soil use aimed at improving plant/root status, growth and development plays a crucial role for enhancing the biological capacity of agricultural soils. This commentary paper is divided into the following four main sections: (i) the contentious nature of soil organic matter; (ii) soil biological quality/fertility; (iii) soil classification; and, (iv) which agricultural practices can be defined as sustainable? The published literature was analyzed within a holistic framework, with agrosystems considered as living systems where soil, vegetation, fauna and microorganisms co-evolve and are reciprocally influenced. Ultimately, this article will suggest a better stewardship of agricultural soils as a natural capital. 相似文献
15.
Ecosystems services sustain humans all over the world. The unsustainable use of ecosystem services around the world has led to widespread degradation which now threatens human health and livelihoods. Although the maintenance of ecosystem services is often used to justify biodiversity conservation actions, it is still unclear how ecosystem services relate to different aspects of biodiversity and to what extent the conservation of biodiversity will ensure the provision of services. The aim of this study was to find out whether biodiversity priorities, biomes, species richness and vegetation diversity hotspots co-occur in space with ecosystem services. The distribution of the ranges and hotspots of five ecosystem services (surface water supply, water flow regulation, carbon storage, soil accumulation, and soil retention) was assessed in South African biomes. Coincidence, overlap, and correlation analyses were used to assess spatial congruence between ecosystem services and species richness (plants and animals) and vegetation diversity hotspots. The grassland and savanna biomes contained significant amounts of all five ecosystem services. There was moderate overlap and a generally positive but low correlation between ecosystem services hotspots and species richness and vegetation diversity hotspots. Species richness was mostly higher in the hotspots of water flow regulation and soil accumulation than would be expected by chance. The water services showed varying levels of congruence with species richness hotspots and vegetation diversity hotspot. These results indicate that actions taken to conserve biodiversity in South Africa will also protect certain ecosystem services and ecosystem services can be used to strengthen biodiversity conservation in some instances. 相似文献
16.
17.
《Land Degradation \u0026amp; Development》2017,28(4):1473-1481
Grazing by livestock supports millions of people worldwide, particularly in drylands, but has marked negative effects on ecosystem services and functions. In Australia, its effects on ecosystem services have not been fully quantified. We examined the extent to which grazing by livestock influenced supporting (productivity, habitat for organisms and biodiversity) and regulating (carbon cycling and hydrological function) services, using data from published and unpublished studies on livestock grazing from a large number of sites across Australia. Grazing reduced our measure of supporting services by about 20% and regulatory services by 8%. On average, grazing reduced plant productivity by 40%, habitat value by 20%, and biodiversity, hydrological function and carbon sequestration by about 10%. Habitat and productivity showed strong declines with increasing grazing intensity, and carbon showed strong declines at the lowest and highest contrasts. Hydrological function and biodiversity did not decline with increasing grazing intensity. Overall, the results indicate that livestock grazing leads to substantial degradation at a continental scale by reducing ecosystem services associated with habitat provision, biodiversity, and soil and water functions. Management of livestock grazing will be critical if we are to retain functional levels of ecosystem services into the next century. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
18.
生物多样性与生态系统功能一直是生态学研究的一个热点。近些年来的研究表明,植物多样性除了影响陆地生态系统地上部分的初级生产力等生态系统功能,还会间接影响地下生物多样性及土壤生态系统过程。本文概述了植物多样性对土壤动物的影响及其主要机制,归纳了植物多样性通过改变输入土壤中的资源数量与资源多样性、微生境结构、土壤环境因子等影响土壤动物的途径。目前关于土壤动物群落对植物多样性的响应仍存在很多问题和争议,本文总结了需要进一步深入研究的方向,特别指出了要加强研究影响植物多样性与土壤动物关系的生物与非生物因子、后续的生态效应和反馈、不同机制和途径的贡献定量化等。 相似文献
19.
Estimating effective soil depth at regional scales: Legacy maps versus environmental covariates 总被引:1,自引:0,他引:1 
下载免费PDF全文
下载免费PDF全文 Wentai Zhang Guiqing Hu Jiandong Sheng David C. Weindorf Hongqi Wu Junwei Xuan An Yan Zhujun Gu 《植物养料与土壤学杂志》2018,181(2):167-176
Soil depth reflects the quantity and ecosystem service functions of soil resources. However, there is no universal standard to measure soil depth at present, and digital soil mapping approaches for predicting soil depth at the regional scale remain immature. Using observation of soil profile morphology, we compared the soil depth nomenclatures from the World Reference Base for Soil Resources, Chinese Soil Taxonomy, and Soil Taxonomy. For this study, shallow soils were defined as those with an effective soil depth < 100 cm. Based on legacy data and field soil survey, the spatial distribution of shallow soils in Xinjiang, China, and the main controlling environmental factors were explored. Results showed that shallow soils in Xinjiang are mainly distributed in high altitude regions such as the Tian Mountains. At the regional scale, significant correlations were observed between soil depth and climate factors, as well as between soil depth and vegetation fractional coverage. Contrary to previous conclusions at small spatial scales, terrain attributes could not explain soil depth variation at the regional scale. This study addressed knowledge gaps on soil depth prediction at regional scales while elucidating climate‐vegetation‐soil coevolution. 相似文献