国际生物多样性研究科学计划与热点述评

生物多样性与人类生活密切相关.近年来不断加剧的人类活动,对生物多样性造成了严重破坏.已有研究表明,地球上的物种正以前所未有的速度丧失.为了遏止这种状况,目前,世界上许多国际组织和国家都对生物多样性及其相关问题展开研究,并制定了与生物多样性保护相关的法规和战略计划,也采取了许多保护生物多样性的行动.DIVERSITAS是国际全球环境变化(GEC)四大研究计划之一,也是生物多样性领域最大的国际科学计划, DIVERSITAS于2001年开始启动了第Ⅱ阶段研究并确定了新的核心研究计划和跨学科交叉网络计划.世界自然保护联盟(The World Conservation Union,IUCN)在2008年发布了<塑造可持续的未来:IUCN 2009～2012年计划>,提出了5个优先主题领域.欧盟于2006年通过了一项保护生物多样性的新战略--<2010年及未来阻止生物多样性丧失:人类福祉的可持续生态服务>.此外,很多国际/国家基金组织还发起了一些全球性的生物多样性计划,如国际海洋生物普查计划、生命之树计划、国际生命条码计划等.本文对上述生物多样性保护和研究的国际计划予以概要介绍和评述,并指出当前国际上生物多样性研究的主要热点,即:生物多样性变化与生态系统功能;生物多样性和生态系统服务的价值评估;生物多样性与气候变化;生物多样性长期动态监测;生物多样性的评价指标等.     

濒危野生动植物种国际贸易管理亟待加强贸易物种的非致危性判断

物种保护是生物多样性保护的核心问题之一.威胁野生动植物生存的主要因素有栖息地丧失、商业开发以及野生动植物国际贸易等.通过各种贸易活动实现经济利益,是人们开发利用野生动植物的主要原动力之一.因而,对野生动植物贸易活动进行科学有效的管理,是保护生物多样性、实现可持续发展的重要基础.     

浙江省生物多样性特征分析

近年来,随着生物遗传资源获取与惠益共享、外来物种入侵、转基因生物安全、生物燃料对生物多样性的影响等新问题的出现,生物多样性保护受到国际社会和各国政府的高度重视。生物多样性是人类社会赖以生存和发展的重要基础,是全球可持续发展的重要组成部分。目前,生物多样性及生物资源的保护、开发、利用已成为衡量一个国家和地区综合实力和可持续发展能力的重要指标之一。准确可靠地掌握生物多样性信息是生物多样性保护科学决策的基础。     

农业部门保护生物多样性的责任

中国农业部门利用的国土面积达50％,农业生态系统是由古代生物多样性丰富的自然生态系统开发出来的,在农业生态系统中仍残存生物多样性富集的岛状野生生境和大量珍稀、濒危物种。农业上栽培和养殖利用1200多个动植物品种也是宝贵的种质资源,农业部门在保护生物多样性行动中责任重大。生物多样性是农业发展的潜在资源,开发不当会带来对农业再发展的危害。农业部门已开始了生物多样性保护行动,但存在许多需要改善与加强的环节,如国家首先要明确落实农业部门在保护生物多样性中的责任,保护农业生物多样性要列入国家和部门的发展计划,完善法规、政策、加强宣传教育,加强国内外合作交流等。     

气候变化与生物多样性之间的复杂关系和反馈机制

气候变化与生物多样性丧失是人类社会正在经历的两大变化。气候变化影响生物多样性的方方面面, 是导致生物多样性丧失的一个主要驱动因子; 反过来, 生物多样性丧失会加剧气候变化。因此, 阻止甚至扭转气候变化和生物多样性丧失是当前人类社会亟需解决的全球性问题,但我们对气候变化与生物多样性之间的复杂关系和反馈机制尚缺乏清晰认识。本文总结了近年气候变化与生物多样性变化的研究进展, 重点概述了不同组织层次、空间尺度和维度的生物多样性对气候变化的响应和反馈等相关领域的研究进展和存在的主要问题。结果发现多数研究关注气候变化对生物多样性的直接影响, 涉及到生物多样性的不同组织层次、维度和营养级, 但针对气候变化间接影响的研究仍然较少, 机理研究同样需要加强; 生物多样性对生态系统功能影响的环境依赖和尺度推演、生物多样性对生态系统多功能性的作用机理和量化方法是当前研究面临的挑战; 生物多样性对生态系统响应气候变化的作用机制尚无统一的认识; 生物多样性对气候变化的正、负反馈效应是国内外研究的盲点。最后, 本文展望了未来发展方向和需要解决的关键科学问题, 包括多因子气候变化对生物多样性的影响; 减缓和适应气候变化的措施如何惠益于生物多样性保护; 生物多样性与生态系统功能的理论如何应用到现实世界; 生物多样性保护对实现碳中和目标的贡献。     

"国际生物多样性观察年"(IBOY)介绍

“国际生物多样性观察年”（IBOY）是由DIVERSITAS所筹划的旨在对全球生物多样性现状从不同层次进行综合研究的一项计划。该计划的主要目标包括：促进公众对生物多样性现状和未来的了解、促进生物多样性学科的发展和完善以及为政府决策过程提供科学依据。DIVERSITAS试图通过该项计划,了解我们所面临的全球性生物多样性现状、全球生物多样性丧失的程度及其原因、生物多样性的丧失给人类生活所带来的威胁、我们怎样保护和发展生物多样性这一人类共同的财富以及探索评估全球生物多样性现状的手段等方面的问题。本文同时还对实施“国际生物多样性观察年”计划所提出的一些提议进行了简要介绍。     

大力发展自然保护区事业 保护生物多样性

保护人类赖以生存和发展的生物多样性,保证生物资源永续利用,实现可持续发展,是全球性的问题,也是我国社会主义现代化建设进程中的一个重要问题。生物多样性是指地球上所有的动物、植物和微生物及其构成的综合体,包括生态系统多样性。物种多样性和遗传多样性不仅可为人类生活提供必不可少的生物资源,而且还形成了人类赖以生存的生物圈环境。保护生物多样性就是保护人类自身的生存和发展条件,是有益当代、造福子孙的一件大事。我国幅员辽阔,气候多样,地貌类型齐全,物种资源丰富,是世界12个生物多样性最为丰富的大国之一。因而,保…     

中国生物多样性适应气候变化策略研究

全球气候变化不仅给人类社会可持续发展带来严峻挑战,而且严重威胁到生物多样性及生态安全。我国是生物多样性最为丰富的国家之一,气候变化已经在对动物分布、行为和迁移,植物物候、植被和群落结构等方面造成了影响,并增加了珍稀濒危物种的灭绝风险,同时对生态系统的功能方面也造成了明显影响。未来气候变化将成为生物多样性丧失的主要驱动力之一。世界很多国家都在制定生物多样性适应气候变化的策略和采取适应行动,加强生物多样性的保护。本文在分析国外适应策略的基础上,结合中国生物多样性的现状,提出了适应气候变化的策略建议,包括制定生物多样性适应气候变化的国家战略,开展气候变化对生物多样性的影响监测和评估,针对敏感物种的就地保护和迁地保护,针对气候变化将导致退化生态系统开展恢复与重建,重点关注生物多样性适应气候变化优先区的保护,通过科学研究和国际合作,促进生物多样性适应气候变化技术的提高,期望为我国生物多样性保护和应对气候变化提供支持。     

利用基于自然的解决方案促进生物多样性保护

生物多样性丧失是当今人类面临的重要危机之一,在以“爱知目标”为代表的生物多样性保护目标均未实现的背景下,如何推进变革性转型以遏制和扭转生物多样性丧失趋势成为当务之急。基于自然的解决方案(NbS)因其坚持整体性、系统性、多样性、稳定性、可持续性、权衡性和包容性等原则,成为应对全球危机的重要途径。该文通过分析机理和功能层面生物多样性和NbS的关系,阐明了NbS利用恢复生态系统的复杂性和营养级来指引生物多样性保护的路径,提出了利用NbS促进生物多样性保护的双重内涵,一是以提升生态系统多样性、稳定性、持续性为目标,二是利用自然生态过程。在建立NbS和生物多样性关联认知的基础上,该文进一步梳理了NbS的概念内涵与生物多样性保护目标的一致性,以及NbS在生态空间、农业空间、城镇空间对生物多样性保护的相关方法,归纳了NbS促进生物多样性的国内外实践案例,讨论了NbS协同促进生物多样性保护、应对气候变化和可持续发展的多重效益,展望了NbS纳入生物多样性保护战略规划的愿景,以期为促进《昆明-蒙特利尔全球生物多样性框架》等框架履约、推进NbS在生物多样性保护主流化提供参考。     

盐城滩涂生物多样性保护及其可持续利用

论述了盐城滩涂的自然概况和动植物资源,分析了生物多样性保护和利用过程中取得的成绩和存在的不足,针对所存在的问题提出了盐城滩涂生物多样性保护及其可持续利用的对策,包括深入开展生物多样性资源的调查和研究,注重滩涂湿地生态环境的保护和改造,加强自然保护区的建设和管理,以科技进步促进生物多样性的保护和利用,围绕资源保护和持续利用实施滩涂开发。     

The Legislation for Biodiversity Conservation in China

Effectivebiodiverdityconservationneedsasoundlegalsystemthatincludesthelegisla-tionininternational,nationalandlocallevels.TheConventiononBiologicalDiversity(CBD)thatenteredintoforceonDecember29,1993,isaninternationallegalinstrument.Asaframeconvention,ithasformedalegalsystem,togetherwiththeotherinternationalagree-mentssuchastheConventiononWetlandsofInternationalImportanceEspeciallyasWater-fowlHabitat(Ramsar1971),theConventionConcerningtheProtectionoftheWorldCul-turalandNaturalHeritage(P…     

A Neglected Science: Applying Behavior to Aquatic Conservation

Behavioral theories, insights, and techniques are too frequently ignored by conservation biologists. Yet an animal's survival and reproductive success clearly depend on its behavior. Using examples from marine, freshwater, and terrestrial realms, I assert that behavioral information is invaluable in five conservation areas: (1) managing wild species (e.g., designing marine reserves; reducing animal–human conflicts; understanding and managing species' responses to human-induced environmental stress such as fishing, introduced species, and chemical, visual, and acoustic pollution); (2) actively reversing the decline of imperiled wild species (e.g., reducing bycatch by improving selectivity of fishing gear; re-establishing breeding populations and boosting reproduction); (3) assessing biodiversity (e.g., modeling population viability; censusing and monitoring populations and species); (4) captive breeding and reintroduction programs (e.g., minimizing loss of valuable phenotypes; teaching or maintaining valuable survival skills); and (5) changing human behavior in resource exploitation (e.g., using principles from social psychology). Both realized and potential applications to fishes are stressed. Finally, behavioral diversity, a valuable but neglected element of biodiversity, needs to be explicitly conserved to maintain diverse populations. Arguments are presented that the conservation of species diversity and genetic diversity alone does not necessarily protect important behavioral diversity. The maintenance of both individual and population variability may be essential for the preservation of a species.     

大理苍洱自然保护区生物多样性保护及其开发利用

本文论述了苍山洱海自然保护区生物多样性现状及人类不合理的经济开发活动所造成的生物多样性受危情况,探讨了保护区内资源合理开发利用的途径及保护生物多样性的对策,提出了保护管理行动计划。     

The potential of certification for conservation and management of wild MAP resources

Medicinal and aromatic plants (MAPs) are an integral part of our biodiversity. In majority of MAP rich countries, wild collection practices are the livelihood options for a large number of rural peoples and MAPs play a significant role in socio-economic development of their communities. Recent concern over the alarming situation of the status of wild MAP resources, raw material quality, as well as social exploitation of rural communities, leads to the idea of certification for MAP resource conservation and management. On one hand, while MAP certification addresses environmental, social and economic perspectives of MAP resources, on the other hand, it ensures multi-stakeholder participation in improvement of the MAP sector. This paper presents an overview of MAP certification encompassing its different parameters, current scenario (Indian background), implementation strategies as well as stakeholders’ role in MAP conservation. It also highlights Indian initiatives in this direction.     

Biodiversity loss and the taxonomic bottleneck: emerging biodiversity science

Human domination of the Earth has resulted in dramatic changes to global and local patterns of biodiversity. Biodiversity is critical to human sustainability because it drives the ecosystem services that provide the core of our life-support system. As we, the human species, are the primary factor leading to the decline in biodiversity, we need detailed information about the biodiversity and species composition of specific locations in order to understand how different species contribute to ecosystem services and how humans can sustainably conserve and manage biodiversity. Taxonomy and ecology, two fundamental sciences that generate the knowledge about biodiversity, are associated with a number of limitations that prevent them from providing the information needed to fully understand the relevance of biodiversity in its entirety for human sustainability: (1) biodiversity conservation strategies that tend to be overly focused on research and policy on a global scale with little impact on local biodiversity; (2) the small knowledge base of extant global biodiversity; (3) a lack of much-needed site-specific data on the species composition of communities in human-dominated landscapes, which hinders ecosystem management and biodiversity conservation; (4) biodiversity studies with a lack of taxonomic precision; (5) a lack of taxonomic expertise and trained taxonomists; (6) a taxonomic bottleneck in biodiversity inventory and assessment; and (7) neglect of taxonomic resources and a lack of taxonomic service infrastructure for biodiversity science. These limitations are directly related to contemporary trends in research, conservation strategies, environmental stewardship, environmental education, sustainable development, and local site-specific conservation. Today’s biological knowledge is built on the known global biodiversity, which represents barely 20% of what is currently extant (commonly accepted estimate of 10 million species) on planet Earth. Much remains unexplored and unknown, particularly in hotspots regions of Africa, South Eastern Asia, and South and Central America, including many developing or underdeveloped countries, where localized biodiversity is scarcely studied or described. "Backyard biodiversity", defined as local biodiversity near human habitation, refers to the natural resources and capital for ecosystem services at the grassroots level, which urgently needs to be explored, documented, and conserved as it is the backbone of sustainable economic development in these countries. Beginning with early identification and documentation of local flora and fauna, taxonomy has documented global biodiversity and natural history based on the collection of "backyard biodiversity" specimens worldwide. However, this branch of science suffered a continuous decline in the latter half of the twentieth century, and has now reached a point of potential demise. At present there are very few professional taxonomists and trained local parataxonomists worldwide, while the need for, and demands on, taxonomic services by conservation and resource management communities are rapidly increasing. Systematic collections, the material basis of biodiversity information, have been neglected and abandoned, particularly at institutions of higher learning. Considering the rapid increase in the human population and urbanization, human sustainability requires new conceptual and practical approaches to refocusing and energizing the study of the biodiversity that is the core of natural resources for sustainable development and biotic capital for sustaining our life-support system. In this paper we aim to document and extrapolate the essence of biodiversity, discuss the state and nature of taxonomic demise, the trends of recent biodiversity studies, and suggest reasonable approaches to a biodiversity science to facilitate the expansion of global biodiversity knowledge and to create useful data on backyard biodiversity worldwide towards human sustainability.     

农业活动对生物多样性的影响

农业生产活动如土地的农业利用、耕作、作物间套种植方式、放牧、农药化肥的使用以及农业动植物遗传改良（包括外来种引入）等是农业生产力提高的重要途径,同时也是影响生物多样性的重要因素之一。土地的不合理开发利用易导致生境破碎、生物多样性下降;大规模的机械耕作导致土壤动植物区系的变化,甚至某些物种的消失;农药（除草剂、杀虫剂等）的高度使用使非靶标动植物受到伤害;品种改良、外来种的引入以及远缘外源遗传物质的利用（如远缘杂交和ＤＮＡ导入分子育种）在丰富了遗传多样性的同时导致农作物类型和品种的简单化、一些古老的地方种和农家种等传统资源丢失等;而一些合理的农业措施（间套作、实行有机农场等）将有利于生物多样性的保持。农业活动注重的是农业生产力的提高而往往忽视其对农业系统中野生动植物（包括有害和无害）的影响以及野生动植物在维持系统稳定和平衡的作用。本文论述农业活动对生物多样性的影响以及生物多样性保护对提高农业生产力的作用,启示人们采取合理的农业活动方式,合理管理有害生物,减少农业活动对生物多样性的负面影响。     

Large expansion of oil industry in the Ecuadorian Amazon: biodiversity vulnerability and conservation alternatives

Ecuador will experience a significant expansion of the oil industry in its Amazonian region, one of the most biodiverse areas of the world. In view of the changes that are about to come, we explore the conflicts between oil extraction interests and biodiversity protection and apply systematic conservation planning to identify priority areas that should be protected in different oil exploitation scenarios. First, we quantified the current extent of oil blocks and protected zones and their overlap with two biodiversity indicators: 25 ecosystems and 745 species (whose distributions were estimated via species distribution models). With the new scheme of oil exploitation, oil blocks cover 68% (68,196 km²) of the Ecuadorian Amazon; half of it occupied by new blocks open for bids in the southern Amazon. This region is especially vulnerable to biodiversity losses, because peaks of species diversity, 19 ecosystems, and a third of its protected zones coincide spatially with oil blocks. Under these circumstances, we used Marxan software to identify priority areas for conservation outside oil blocks, but their coverage was insufficient to completely represent biodiversity. Instead, priority areas that include southern oil blocks provide a higher representation of biodiversity indicators. Therefore, preserving the southern Amazon becomes essential to improve the protection of Amazonian biodiversity in Ecuador, and avoiding oil exploitation in these areas (33% of the extent of southern oil blocks) should be considered a conservation alternative. Also, it is highly recommended to improve current oil exploitation technology to reduce environmental impacts in the region, especially within five oil blocks that we identified as most valuable for the conservation of biodiversity. The application of these and other recommendations depends heavily on the Ecuadorian government, which needs to find a better balance between the use of the Amazon resources and biodiversity conservation.     

Changing perspectives on biodiversity conservation: from species protection to regional sustainability

Biodiversity is the basis for ecosystem goods and services that provide for human survival and prosperity. With a rapidly increasing human population and its demands for natural resources, landscapes are being fragmented, habitats are being destroyed, and biodiversity is declining. How can biodiversity be effectively conserved in the face of increasing human pressures? In this paper, Ⅰ review changing perspectives on biodiversity conservation, and discuss their relevance to the practice of biodiversity conservation. The major points include The notion of balance of nature is a myth rather than a scientific concept; the theory of island biogeography is useful heuristically but flawed practically; the SLOSS debate is intriguing in theory but irrelevant in reality; the concept of minimum viable population and population viability analysis are useful, but technically inefficient and conceptually inadequate; metapopulation theory is mathematically elegant but ecologically oversimplistic; and integrative perspectives and approaches for biodiversity conservation are needed that incorporate insights from landscape ecology and sustainability science. Ⅰ further discuss some key principles for regional conservation planning, and argue that the long-term success of biodiversity conservation in any region will ultimately depend on the economic and social sustainability of that region. Both research and practice in biodiversity conservation, therefore, need to adopt a broader perspective of sustainability.     

IPBES评估报告对全球生物多样性保护的影响——以美国传粉者保护政策为例

作为生物多样性领域首个政府间、多学科、跨领域的综合性科学政策平台, 联合国生物多样性和生态系统服务政府间科学-政策平台(The Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services, IPBES)将会对全球生物多样性保护及其他领域产生重要影响。本文通过分析美国传粉者保护政策的制定和实施过程, 获得了生物多样性相关保护政策的制定为科学评估-政府关注-出台限制性政策措施的过程和模式。基于IPBES 2016年发布《传粉者、传粉与粮食生产评估报告》(The Assessment Report on Pollinators, Pollination and Food Production)的事实, 推测IPBES交付品可能促进对新烟碱类农药产业和蜂产品尤其是野生蜂产品交易限制性政策的产生。并进一步分析了IPBES交付品可能在全球以及我国生物多样性保护及其相关领域带来的影响, 比如可能通过促进生物多样性领域的科学评估, 进一步主流化生物多样性保护问题, 促使生物多样性保护成为重要的政治议题。本文旨在为我国建立生物多样性保护的适应性政策提供科学支持。     

试论生物多样性保护理论与实践面临的困难及现实出路

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