不同渍水时间对苗期和花期大豆生长及碳氮代谢的影响

以大豆品种南农99.6为材料,通过盆栽试验研究了苗期和花期渍水对大豆生长及碳氮代谢的影响.结果表明: 渍水显著抑制了大豆的生长,植株生物量、叶面积、叶片色素含量和光合速率均显著下降,而丙二醛(MDA)含量显著升高;随着渍水时间的延长,各生理指标的变化幅度增大;渍水胁迫解除后有一定的恢复,渍水10 d处理后恢复能力较渍水20 d处理强.可溶性碳、氮物质及关键酶对渍水反应不同,可溶性糖含量以及叶片谷氨酰胺合成酶和蔗糖合成酶的活性上升,而可溶性蛋白含量下降.渍水对苗期大豆植株生物量、叶面积和MDA含量的影响比花期小.苗期和花期渍水时间越短,大豆受到的伤害越小,其恢复能力也越强.渍水时间在10 d内,大豆植株能够通过自身的调节逐渐恢复.     

Facing a wicked problem with optimism: issues and priorities for coral conservation in Hong Kong

Economic development and environmental conservation are often seen as opposing forces in the arena of government policy-making. With more than 7 million people and a rich diversity of marine species and habitats, Hong Kong is an excellent case study to explore this dynamic. Despite anthropogenic impacts, Hong Kong still hosts more than 90 species of stony corals within a marine area of 1650 km². This is remarkable in light of the global plight of coral reefs, which have been reduced by ~80% worldwide in recent decades. The Hong Kong Special Administrative Region has not been immune to this negative trend with an unfortunate track of marine environmental disasters and, as such, can be viewed a harbinger for the future trajectory of coral reefs worldwide. Yet, the story is not entirely negative. Hong Kong possesses key assets, including capable government environmental agencies and competitive research led by local universities, which can bring novel and promising approaches for coral biodiversity conservation in an urbanized context. To coordinate and assist conservation efforts in Hong Kong, we here identify and prioritize major management efforts and identify knowledge gaps for coral conservation based on updated coral biodiversity distribution and a current literature review. Specifically, we propose five priorities for the most positive impact on conservation efforts: (1) reconstruct environmental baselines and establish long-term monitoring of local coral communities, (2) enhance the management and protection of local coral habitats, (3) improve water quality, (4) gain an understanding of the genetic connectivity among local and distant coral communities, and finally, (5) establish an active restoration program for local coral species/communities. In order to build progressive and integrative management strategies for coral biodiversity conservation in Hong Kong, we suggest specific ways in which these priorities be addressed and encourage a fresh dialogue between the government, the public and academia.     

Desert spring refugia: museums of diversity or evolutionary cradles?

Refugia play a critical role in preserving species unable to move or adapt to cope with environmental change. The role of refugia as ‘museums of diversity’ means these environments have a high conservation priority. Less well known, however, is the role that isolated and fragmented refugia can play in the generation of new diversity. Here, we examined the diversification and evolutionary history of a community of endemic invertebrates that inhabit Australian desert spring refugia. We compared the phylogenies of seven endemic groups (Haloniscus and Phreatomerus isopods, chiltoniid amphipods, Ngarawa ostracods, Trochidrobia and Fonscochlea snails and Gymnochthebius beetles) from these springs and examine the rates and timing of diversification and reconstructed the phylogeographic history of each taxon. Despite major life‐history differences among these taxa, they demonstrate remarkable similarities in their evolutionary histories. All groups have multiple lineages that extend back to a time before the formation of present‐day deserts, and significant geographic‐based diversification since adapting to a refugial habitat. The results provide further evidence that refugia act as museums of biodiversity, preserving lineages that would have otherwise gone extinct. However, we also observed that isolation in refugia corresponds with significant diversification, leading to a recently evolved, novel endemic fauna, supporting the idea that fragmented refugia provide ideal conditions for the generation of future biodiversity hotspots.     

The importance of an evolutionary perspective in conservation policy planning

Prioritization of taxa for conservation must rest on a foundation of correctly identified species boundaries, enhanced by an understanding of evolutionary history and phylogenetic relationships. Therefore, we can incorporate both evolutionary and ecological processes into efforts to sustain biodiversity. In this issue of Molecular Ecology, Malaney & Cook ( 2013 ) highlight the critical value of an evolutionary biogeographical approach, combining multilocus phylogeography with climatic niche modelling to infer phylogenetically weighted conservation priorities for evolutionary lineages of jumping mice across North America. Remarkably, they find that the Preble's meadow jumping mouse (Zapus hudsonius preblei), long debated as a threatened taxon, in fact represents the southern terminus of a relatively uniform lineage that expanded well into Alaska during the Holocene. By contrast, some other relictual and phylogenetically divergent taxa of jumping mice likely warrant greater conservation priority. This study highlights the value of integrative approaches that place current taxonomy in a broader evolutionary context to identify taxa for conservation assessment, but also highlights the challenges in maintaining potential for adaptive responses to environmental change.     

生物多样性保护适应气候变化的管理策略

应对气候变化和保护生物多样性是2大全球性热点环境问题。气候变化导致物种多样性丧失、生态系统服务降低和区域生态安全屏障功能受损,威胁到中国国土生态安全格局和生态脆弱区域的可持续发展,给生物多样性保护带来新的挑战。做好生物多样性保护适应气候变化的风险管理工作,既是生物多样性应对气候变化风险的必要措施,也是减缓气候变化的重要途径。结合爱知目标10的实现情况,分析了欧盟、澳大利亚、美国等发达国家发布的生物多样性适应气候变化技术政策制定情况、中国生物多样性应对气候变化进展情况,剖析了中国生物多样性保护适应气候变化存在的问题,包括生物多样性应对气候变化的科学认知亟待提高、生物多样性保护适应气候变化的能力建设不足、自然保护地之间缺乏适应气候变化的生态廊道网络、生物多样性保护适应气候变化的技术标准缺乏。研究提出了中国生物多样性应对气候变化的适应性管理策略,包括制定《中国生物多样性保护协同应对气候变化的国家方案》、加强生物多样性保护适应气候变化的能力建设、开展自然保护区适应气候变化的风险管理试点、强化生物多样性应对气候变化的科技支撑,以期为推进纳入气候变化风险管理的生物多样性保护工作提供决策依据。     

分子标记在濒危物种保护中的应用

分子标记可揭示种群遗传和进化信息, 为制定濒危物种保护措施、指导恢复实践提供重要依据。本文主要介绍了分子标记在濒危物种保护过程不同环节中的应用, 包括: (1)正确识别保护单元, 如排除隐存种和杂交种的影响; (2)确定优先保护单元, 包括优先保护区域、优先保护物种、优先保护种群等; (3)指导迁地保护; (4)对保护工作的动态监测和评估。文章最后探讨了分子标记应用于保护的发展方向, 如开展长期的种群遗传组成监测、切实应用于保护管理实践、将基因组学等遗传信息用于全球变化背景下保护策略的制定等, 期望为分子标记技术在生物多样性保护的研究和实践中提供参考。     

Unravelling biodiversity,evolution and threats to conservation in the Sahara‐Sahel

Deserts and arid regions are generally perceived as bare and rather homogeneous areas of low diversity. The Sahara is the largest warm desert in the world and together with the arid Sahel displays high topographical and climatic heterogeneity, and has experienced recent and strong climatic oscillations that have greatly shifted biodiversity distribution and community composition. The large size, remoteness and long‐term political instability of the Sahara‐Sahel, have limited knowledge on its biodiversity. However, over the last decade, there have been an increasing number of published scientific studies based on modern geomatic and molecular tools, and broad sampling of taxa of these regions. This review tracks trends in knowledge about biodiversity patterns, processes and threats across the Sahara‐Sahel, and anticipates needs for biodiversity research and conservation. Recent studies are changing completely the perception of regional biodiversity patterns. Instead of relatively low species diversity with distribution covering most of the region, studies now suggest a high rate of endemism and larger number of species, with much narrower and fragmented ranges, frequently limited to micro‐hotspots of biodiversity. Molecular‐based studies are also unravelling cryptic diversity associated with mountains, which together with recent distribution atlases, allows identifying integrative biogeographic patterns in biodiversity distribution. Mapping of multivariate environmental variation (at 1 km × 1 km resolution) of the region illustrates main biogeographical features of the Sahara‐Sahel and supports recently hypothesised dispersal corridors and refugia. Micro‐scale water‐features present mostly in mountains have been associated with local biodiversity hotspots. However, the distribution of available data on vertebrates highlights current knowledge gaps that still apply to a large proportion of the Sahara‐Sahel. Current research is providing insights into key evolutionary and ecological processes, including causes and timing of radiation and divergence for multiple taxa, and associating the onset of the Sahara with diversification processes for low‐mobility vertebrates. Examples of phylogeographic patterns are showing the importance of allopatric speciation in the Sahara‐Sahel, and this review presents a synthetic overview of the most commonly hypothesised diversification mechanisms. Studies are also stressing that biodiversity is threatened by increasing human activities in the region, including overhunting and natural resources prospection, and in the future by predicted global warming. A representation of areas of conflict, landmines, and natural resources extraction illustrates how human activities and regional insecurity are hampering biodiversity research and conservation. Although there are still numerous knowledge gaps for the optimised conservation of biodiversity in the region, a set of research priorities is provided to identify the framework data needed to support regional conservation planning.     

Biodiversity,conservation and inventory: why insects matter

Western culture views insects and arachnids as pests and vermin that need to be controlled. They usually are not considered as something to be preserved. Accordingly, arthropods and other small organisms have not been taken seriously for conservation by policy makers and the conservation community at large. Having existed for more than 400 million years and after surviving the Permian and Cretaceous mass extinctions, arthropods have been the most successful of all living things and along with other invertebrates constitute more than three-quarters of today's global biodiversity. Arthropods are major components of diverse ecosystems and are the major players in functioning of ecosystem processes. Nevertheless, arthropods, which are the least known and, along with other plants and animals, are relentlessly vanishing before our eyes. Thus, aside from anthropocentric perception and societal prejudice, arthropods certainly are not pests in an ecological or evolutionary context and have an inherent biological right to exist in an evolutionary context, with ecological and instrumental values. They must be preserved because of their inherent values but also because we need them for human survival. Thus, arthropods must become an important and necessary part of the conservation strategy at all levels of environmental organization, from populations and species to ecosystems and landscapes.Insect conservation aims at saving both endangered species and ecosystem processes with a multitude of approaches targeted at different scales. Conservation efforts for arthropods are daunting because all the odds are against them: whereas species diversity, population size and biomass are so large, taxonomy and faunal information are inadequate; whereas the need for taxonomic and biodiversity information increases greatly, the shortage of taxonomic expertise worsens.Basic issues of biodiversity and the loss of species are reviewed. The goals and strategies for insect conservation are discussed with a focus on inventory and monitoring. Taxonomic and environmental surveys are compared, and the needs for biodiversity monitoring are discussed as ecological monitoring process based on inventory data. This monitoring focuses on the health of nested biodiversity (composition, structure and process) and the state of species, differing from other contemporary monitoring efforts.     

Research priorities for bat conservation in Southeast Asia: a consensus approach

Southeast Asia is a critical area for biodiversity conservation; levels of species richness and endemism are among the highest in the world, but rapid land-use changes endanger much of the region’s fauna. Bats are a critical component of this diversity, comprising nearly a third of Southeast Asia’s mammal species and providing vital ecological and economic services. However, nearly half the species are of conservation concern and as many as 40% of bat species are predicted to be extinct by the end of this century if current deforestation rates persist. Conservation efforts are urgently needed, and the taxonomic continuity of Southeast Asia and the prevalence of major threats throughout suggest that a region-wide initiative could be an effective approach. The Southeast Asian Bat Conservation Research Unit (SEABCRU) was established in 2007 to provide an organizational framework to both accelerate the advancement of bat research, and to coordinate conservation efforts. The SEABCRU is an informal collaboration among institutes, NGOs and individuals and provides a web-based forum for the growing number of researchers and outreach workers to interact and coordinate activities. It was launched at the 1st International Southeast Asian Bat Conference in Thailand (May 2007), during which a forum was held to derive conservation research priorities using a consensus approach. Four priorities were identified by participants: flying fox conservation and monitoring, taxonomy, conservation of cave-dependent bats, and conservation of forest-dependent bats. Here I provide an overview of the rationales behind these priorities and list the specific recommendations for the actions identified.     

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。     

Island area,body size and demographic history shape genomic diversity in Darwin's finches and related tanagers

Genomic diversity is the evolutionary foundation for adaptation to environmental change and thus is essential to consider in conservation planning. Island species are ideal for investigating the evolutionary drivers of genomic diversity, in part because of the potential for biological replicates. Here, we use genome data from 180 individuals spread among 27 island populations from 17 avian species to study the effects of island area, body size, demographic history and conservation status on contemporary genomic diversity. Our study expands earlier work on a small number of neutral loci to the entire genome and from a few species to many. We find significant positive correlation between island size and genomic diversity, a significant negative correlation between body size and genomic diversity, and that historical population declines significantly reduced contemporary genomic diversity. Our study shows that island size is the key factor in determining genomic diversity, indicating that habitat conservation is key to maintaining adaptive potential in the face of global environmental change. We found that threatened species generally had a significantly smaller values of Watterson's theta (θ_W = 4N_eμ) compared to nonthreatened species, suggesting that θ_W may be useful as a conservation indicator for at‐risk species. Overall, these findings (a) provide biological insights into how genomic diversity scales with ecological, morphological and demographic factors; and (b) illustrate how population genomic data can be leveraged to better inform conservation efforts.     

How well are biodiversity drivers reflected in protected areas? A representativeness assessment of the geohistorical gradients that shaped endemic flora in Japan

Protected areas function as a lifeboat that can preserve the origins and maintenance of biodiversity. We assessed the representativeness of biodiversity in existing protected areas in Japan using a distribution dataset and phylogenetic tree for 5565 Japanese vascular plant species. We first examined the overlap of species distribution with the existing protected areas and identified the minimum set representing all plant species. Second, we evaluated the relative importance of environmental variables in explaining the spatial arrangement of protected areas using a random forest model. Finally, we clarified how potential drivers of plant diversity were sufficiently captured within the protected areas network. Although the protected areas captured the majority of species, nearly half of the minimum set areas were selected from outside the existing protected areas. The locations of existing protected areas are mainly associated with geographical and socio-economic factors rather than key biodiversity features (including evolutionary distinctiveness). Moreover, critical biodiversity drivers, which include current climate, paleoclimatic stability, and geographical isolation, were biasedly emulated within the existing protected areas. These findings demonstrate that current conservation planning fails to represent the ecological and evolutionary processes relevant to species sorting, dispersal limitation, and allopatric speciation. In particular, under-representativeness of historically stable habitats that function as evolutionary hotspots or refugia in response to climate changes may pose a threat to the long-term persistence of Japan’s endemic biota. This study provides a fundamental basis for developing prioritization measures to retain species assembly processes and in situ diversification along current climatic and geohistorical gradients.     

Organisms and responses to environmental change

There is great concern currently over environmental change and the biotic responses, actual or potential, to that change. There is also great concern over biodiversity and the observed losses to date. However, there has been little focus on the diversity of potential responses that organisms can make, and how this would influence both the focus of investigation and conservation efforts. Here emphasis is given to broad scale approaches, from gene to ecosystem and where a better understanding of diversity of potential response is needed. There is a need for the identification of rare, key or unique genomes and physiologies that should be made priorities for conservation because of their importance to global biodiversity. The new discipline of conservation physiology is one aspect of the many ways in which organismal responses to environmental variability and change can be investigated, but wider approaches are needed. Environmental change, whether natural or human induced occurs over a very wide range of scales, from nanometres to global and seconds to millennia. The processes involved in responses also function over a wide range of scales, from the molecular to the ecosystem. Organismal responses to change should be viewed in these wider frameworks. Within this overall framework the rate of change of an environmental variable dictates which biological process will be most important in the success or failure of the response. Taking this approach allows an equation to be formulated that allows the likely survival of future change to be estimated:Ps=(f(PF)xf(GM)xf(NP)xf(F)xf(D)xf(RA))/(ΔExf(C)xf(PR)xF(HS)),where Ps = Probability of survival; PF = Physiological flexibility; GM = Gene pool modification rate; NP = number in population; F = Fitness; D = Dispersal capability; RA = Resource availability; ΔE = rate of change of the environment; C = Competition; PR = Predation and parasitism; HS = Habitat separation. Functions (f) are used here to denote that factors may interact and respond in a non-linear fashion.     

Ancient introductions of mammals in the Mediterranean Basin and their implications for conservation

• 1 The importance of taxonomy to the determination of conservation priorities and actions is widely accepted. It should be not surprising therefore that the taxonomic treatment of mammal species that have been subject to human actions in antiquity may well influence the contemporary assessment of conservation priorities at various levels.
• 2 As a result of early extinctions caused by humans and protohistoric and historic introductions, we suggest that the Mediterranean Basin and its islands are particularly prone to misdirection of efforts towards biodiversity conservation.
• 3 The two main risks associated with the failure to use an evolutionary and palaeoecological approach to conservation efforts are (i) an underestimation of the conservation importance of distinctive continental taxa vs. the apparent endemicity of island taxa; and (ii) a serious risk for native and endemic island species when anthropochorous mammals, especially ungulates, misguidedly become the focus of conservation actions, particularly inside protected areas.
• 4 Urgent measures, including refinement of mammal taxonomy, the exclusion of known anthropochorous taxa from conservation lists and implementation of protective legislation, are necessary to maintain the uniqueness and richness of the Mediterranean biodiversity hotspot.

     

Beyond Reserves: A Research Agenda for Conserving Biodiversity in Human-modified Tropical Landscapes

To truly understand the current status of tropical diversity and to forecast future trends, we need to increase emphasis on the study of biodiversity in rural landscapes that are actively managed or modified by people. We present an integrated landscape approach to promote research in human-modified landscapes that includes the effects of landscape structure and dynamics on conservation of biodiversity, provision of ecosystem services, and sustainability of rural livelihoods. We propose research priorities encompassing three major areas: biodiversity, human–environment interactions, and restoration ecology. We highlight key areas where we lack knowledge and where additional understanding is most urgent for promoting conservation and sustaining rural livelihoods. Finally, we recommend participatory and multidisciplinary approaches in research and management. Lasting conservation efforts demand new alliances among conservation biologists, agroecologists, agronomists, farmers, indigenous peoples, rural social movements, foresters, social scientists, and land managers to collaborate in research, co-design conservation programs and policies, and manage human-modified landscapes in ways that enhance biodiversity conservation and promote sustainable livelihoods.     

中国生物多样性就地保护的研究与实践

中国是世界上生物多样性最丰富的地区之一,但面临着较大的生态衰退风险。中国生物多样性受到的威胁来自包括人口众多、经济发展模式单一落后、工业化进程加快、气候变化和外来物种入侵等多种因素。生物多样性的就地保护对于维护国家生态安全具有重要意义,同时也是中国可持续发展的需要。本文就中国生物多样性就地保护的研究成果和保护成就进行了回顾,提出了未来应该着重加强的研究领域。中国生物多样性的就地保护研究与实践主要集中在生物多样性资源调查、濒危物种管理和自然保护区建设等方面。中国政府在生物多样性就地保护领域开展了大量卓有成效的工作,发布实施了一系列的保护行动规划,不断提高了生物多样性的保护水平。中国的生物多样性就地保护经过了由数量发展到质量发展的阶段后,未来的研究重点应该集中在生物多样性形成与维持机制、生物多样性受胁原因与响应机制、生物多样性长期监测与评估、自然保护区有效管理和自然保护区立法等方面。     

中国极小种群野生植物保护理论与实践研究进展

极小种群野生植物大都分布范围狭窄、个体数量稀少且自然更新困难, 面临随时灭绝的风险, 迫切需要拯救性保护。极小种群野生植物这一概念自提出以来受到了保护生物学领域的广泛关注, 已成为当前中国生物多样性保护的一个热点方向。我国于2010年正式启动实施极小种群野生植物拯救保护工程, 并开展了大量的保护研究和实践。以“extremely small population*”和“plant”为检索词在Web of Science进行了主题检索, 以“极小种群”和“植物”为检索词在中国知网进行了主题检索, 对获取的的学术期刊论文、学位论文和会议论文进行了梳理。本文从极小种群野生植物种群、群落及生境调查与监测、适应性、遗传多样性、繁殖生物学、濒危机制、动态模型6个方面对近年来极小种群野生植物的理论研究工作进行了较为系统的综述。在此基础上, 从就地保护、迁地保护与种质资源保存、野外回归、人工繁育、标准化体系5个方面回顾了极小种群野生植物保护实践及取得的进展。基于极小种群野生植物保护理论与实践研究现状, 我们建议在极小种群野生植物未来保护工作中不断调整和完善保护名录, 加强种群结构的观测和预测、小种群形成和恢复机制的针对性研究以及特定物种的长期系统性研究, 同时促进这一概念在国际上的推广。希望本文能为国家生物多样性保护和生态文明建设提供参考。     

The California Hotspots Project: identifying regions of rapid diversification of mammals

The high rate of anthropogenic impact on natural systems mandates protection of the evolutionary processes that generate and sustain biological diversity. Environmental drivers of diversification include spatial heterogeneity of abiotic and biotic agents of divergent selection, features that suppress gene flow, and climatic or geological processes that open new niche space. To explore how well such proxies perform as surrogates for conservation planning, we need first to map areas with rapid diversification -'evolutionary hotspots'. Here we combine estimates of range size and divergence time to map spatial patterns of neo-endemism for mammals of California, a global biodiversity hotspot. Neo-endemism is explored at two scales: (i) endemic species, weighted by the inverse of range size and mtDNA sequence divergence from sisters; and (ii) as a surrogate for spatial patterns of phenotypic divergence, endemic subspecies, again using inverse-weighting of range size. The species-level analysis revealed foci of narrowly endemic, young taxa in the central Sierra Nevada, northern and central coast, and Tehachapi and Peninsular Ranges. The subspecies endemism-richness analysis supported the last four areas as hotspots for diversification, but also highlighted additional coastal areas (Monterey to north of San Francisco Bay) and the Inyo Valley to the east. We suggest these hotspots reflect the major processes shaping mammal neo-endemism: steep environmental gradients, biotic admixture areas, and areas with recent geological/climate change. Anthropogenic changes to both environment and land use will have direct impacts on regions of rapid divergence. However, despite widespread changes to land cover in California, the majority of the hotspots identified here occur in areas with relatively intact ecological landscapes. The geographical scope of conserving evolutionary process is beyond the scale of any single agency or nongovernmental organization. Choosing which land to closely protect and/or purchase will always require close coordination between agencies.     

The Global Environment Facility and biodiversity conservation: lessons to date and suggestions for future action

The last five years in particular have seen increasing attention paid to biodiversity. This culminated at the Earth Summit last June with the completion of Agenda 21 and a major international Convention on Biological Diversity, a document signed by some 165 nations. Concurrent with the Convention negotiations was the development of a global fund for biodiversity conservation and other environmental priorities, the Global Environment Facility (GEF). The GEF is the largest fund to data put forward by the international community to address biodiversity loss, but, so far, it has failed to set adequate priorities for biodiversity conservation. It has also yet to recognize the full range of biodiversity values and uses and, in general, GEF projects have not taken advantage of existing non-governmental capacity for biodiversity conservation. 1993 is a critical year for the GEF, one in which the GEF can become a critical element of global efforts to conserve biodiversity or remain an important initialive that realized only a fraction of its potential.     

Genetic diversity is overlooked in international conservation policy implementation

The importance of genetic variation for maintaining biological diversity and evolutionary processes has been recognized by researchers for decades. This realization has prompted agreements by world leaders to conserve genetic diversity, and this is an explicit goal of the Convention on Biological Diversity (CBD). Nevertheless, very limited action has been taken to protect genetic diversity on a global scale. International conservation efforts to halt biodiversity loss focus on habitats and species, whereas little or no attention is paid to gene level variation. By this year, 2010, world leaders have agreed that a significant reduction of the rate of biodiversity loss should have been achieved. However, gene level diversity is still not monitored, indicators that can help identify threats to genetic variation are missing, and there is no strategy for how genetic aspects can be included in biodiversity targets beyond 2010. Important findings and conclusions from decades of conservation genetic research are not translated into concrete conservation action in the arena of international policy development. There is an urgent need for conservation geneticists worldwide to become involved in policy and practical conservation work beyond the universities and research institutions.