Challenges and recovery actions for the widespread, threatened Grey-headed Flying-fox: A review from a New South Wales policy perspective

Summary   The challenges of managing and conserving threatened species that have a widespread distribution operate at several levels and recovery of these species is a complex process. This paper provides an overview of how science is informing the management and conservation of the Grey-headed Flying-fox ( Pteropus poliocephalus ) in New South Wales. It outlines a series of research projects and activities the Department of Environment and Climate Change (New South Wales) has led or been involved in since the Grey-headed Flying-fox was listed as threatened in New South Wales in May 2001. This includes investigation of the species' distribution and abundance; its roosting and foraging habitat requirements; assessment of horticultural damage and the mitigation techniques used; public attitudes towards the species; and development of policies and plans to guide the species' conservation and management. Conservation gains for threatened species can be achieved through a sustained, focused programme of management, coordinated by dedicated individuals and informed by the available science. Scientists, policy-makers and the general community must continue to strive together for the recovery of widespread, threatened species.     

Volunteers in bird conservation: Insights from the Australian Threatened Bird Network

Summary   Volunteers play an important role in recovery efforts on threatened Australian birds. We surveyed the demography, motivation and preferences of people registered with the Threatened Bird Network, a network dedicated to placing volunteers in recovery efforts. Most were employed or studying and were members of conservation or natural history groups. The main reason for volunteering was an interest in conservation, and most volunteers considered habitat conservation of primary importance. They preferred outdoor projects on highly threatened species and where organizers set clear goals, provided feedback and supervised in a friendly and helpful manner. We also surveyed the recovery projects to determine the extent of volunteer involvement required, and the expectations recovery teams had of volunteers. Volunteers made a major contribution to recovery efforts, with $3.4 million being directed to 32 recovery efforts in the period 1996−2000 − a contribution that has been increasing in recent years. Most activities involved surveying and searching and most activities were available in spring, which coincides with the breeding season of the taxa involved. Volunteers travelled considerable distances, yet only a few projects provided financial support.     

Importance of <Emphasis Type="Italic">in vitro</Emphasis> technology to future conservation programmes worldwide

The latest IUCN statistics show that of over 12,000 plant species, 70% are threatened, 19% are critically endangered and 28 species are extinct in the wild. Target 8 of the Global Strategy for Plant Conservation (GSPC) highlights the importance of ex situ conservation of critically endangered plants. Long-term germplasm storage for species with recalcitrant seeds needs alternative measures. In vitro methods complement seed banking and other ex situ measures and are vital for long-term conservation. Conservation Biotechnology at RBG Kew is currently working on a number of rare and threatened recalcitrant species from biodiversity-rich areas of the world to develop good quality in vitro propagules for cryopreservation, recovery and restoration projects. The importance of successful in vitro propagation methods, transplantation technologies, cryopreservation and international networking for the integrated conservation of these species are discussed in detail.     

Conservation Action Based on Threatened Species Capture Taxonomic and Phylogenetic Richness in Breeding and Wintering Populations of Central Asian Birds

Although phylogenetic diversity has been suggested to be relevant from a conservation point of view, its role is still limited in applied nature conservation. Recently, the practice of investing conservation resources based on threatened species was identified as a reason for the slow integration of phylogenetic diversity in nature conservation planning. One of the main arguments is based on the observation that threatened species are not evenly distributed over the phylogenetic tree. However this argument seems to dismiss the fact that conservation action is a spatially explicit process, and even if threatened species are not evenly distributed over the phylogenetic tree, the occurrence of threatened species could still indicate areas with above average phylogenetic diversity and consequently could protect phylogenetic diversity. Here we aim to study the selection of important bird areas in Central Asia, which were nominated largely based on the presence of threatened bird species. We show that although threatened species occurring in Central Asia do not capture phylogenetically more distinct species than expected by chance, the current spatially explicit conservation approach of selecting important bird areas covers above average taxonomic and phylogenetic diversity of breeding and wintering birds. We conclude that the spatially explicit processes of conservation actions need to be considered in the current discussion of whether new prioritization methods are needed to complement conservation action based on threatened species.     

What works for threatened species recovery? An empirical evaluation for Australia

Despite the growing numbers of threatened species and high levels of spending on their recovery worldwide, there is surprisingly little evidence about which conservation approaches are effective in arresting or reversing threatened species declines. Using two government data sets, we examined associations between population trends for 841 nationally-threatened terrestrial species in Australia, and four measures of conservation effort: (a) how much their distribution overlaps with strictly protected areas (IUCN I–IV), (b) and other protected areas (IUCN V–VI), (c) the number of recovery activities directed at the species, and (d) numbers of natural resource conservation activities applied in areas where populations of the threatened species occur. We found that all populations of 606 (72%) species were in decline. Species with greater distributional overlap with strictly protected areas had proportionately more populations that were increasing or stable. This effect was robust to geographic range size, data quality differences and extent of protection. Measures other than strictly protected areas showed no positive associations with stable or increasing trends. Indeed, species from regions with more natural resource conservation activities were found to be more likely to be declining, consistent with differential targeting of such generalised conservation activities to highly disturbed landscapes. Major differences in trends were also found among the different jurisdictions in which species predominantly occurred, which may be related to different legislative protections against habitat destruction. Although we were not able to test causation, this research corroborates other evidence that protected areas contribute to the stabilization or recovery of threatened species, and provides little empirical support for other conservation approaches.     

Application of the IUCN Red Listing system to setting species targets for conservation planning purposes

Biodiversity targets, or estimates of the quantities of biodiversity features that should be conserved in a region, are fundamental to systematic conservation planning. We propose that targets for species should be based on the quantitative thresholds developed for the Vulnerable category of the IUCN Red List system, thereby avoiding future listings of species in an IUCN Red List threat category or an increase in the extinction risk, or ultimate extinction, of species already listed as threatened. Examples of this approach are presented for case studies from South Africa, including threatened taxa listed under the IUCN Red List criteria of A to D, a species listed as Near Threatened, a species of conservation concern due to its rarity, and one species in need of recovery. The method gives rise to multiple representation targets, an improvement on the often used single representation targets that are inadequate for long term maintenance of biodiversity or the arbitrary multiple representation and percentage targets that are sometimes adopted. Through the implementation of the resulting conservation plan, these targets will ensure that the conservation status of threatened species do not worsen over time by qualifying for higher categories of threat and may actually improve their conservation status by eliminating the threat of habitat loss and stabilizing population declines. The positive attributes ascribed to the IUCN Red List system, and therefore to the species targets arising from this approach, are important when justifying decisions that limit land uses known to be detrimental to biodiversity.     

中国植物受威胁等级评估系统概述

濒危物种保护是生物多样性保护工作的重要组成部分, 而物种受威胁等级评估则是濒危物种保护的方向指引。经过多年的发展, 物种受威胁等级的评估由定性评估逐渐向定量评估为主、定性评估为辅的方向发展。本文综述了国内植物受威胁等级定量评估系统的研究进展, 同时介绍了国外较为成熟的IUCN红色名录评估系统、CITES评估系统、美国自然保育协会评估系统, 提出未来制定受威胁物种定量评估标准时要兼顾以下方面: (1)等级设置定义要明确、统一且合理; (2)评估标准应该定量化、客观且不冗余; (3)评估系统应该适应不同地理范围, 最好能同时表达出各范围的受威胁等级; (4)评估指标要包含物种动态信息, 能定量分析物种在过去或者未来的变化。此外, 本文认为国内的物种受威胁等级定量评估系统应该形成规范化的大纲, 加大宣传力度, 尽量将理论研究与具体的保护行动结合起来; 同时, 我国还应该采用全球广泛应用的受威胁等级评估系统获取物种受威胁等级, 将国内生物多样性保护工作纳入到全球范围中去。     

Conservation-oriented restoration—a two for one method to restore both threatened species and their habitats

There is an urgent need for a new conservation approach as mere designation of protected areas, the primary approach to conserving biodiversity, revealed its low conservation efficiency and inability to cope with numerous challenges faced by nature in the Anthropocene. The paper discusses the new concept, which proposes that ecological restoration becomes an integral part of conservation planning and implementation, and is done using threatened plant species that are introduced not only into locations where they currently grow or grew in the recent past, but also into suitable locations within their potential distribution range. This new concept is called conservation-oriented restoration to distinguish it from the traditional restoration. Although the number of restoration projects focusing on recreation of once existing natural habitats is instantly growing, the majority of ecological restoration projects, in contrast to conservation-oriented restoration, have predominantly utilitarian goals, e.g.improvement or air quality, erosion control or soil replenishment. Conservation-oriented restoration should not be seen as an alternative either to the latter, or to the conservation dealing with particular threatened species(species-targeted conservation). These three conservation approaches, traditional ecological restoration, species-targeted conservation, and conservation-oriented restoration differ not only in broadly defined goals and attributes of their targets, but also in the types of ecosystems they are applicable to, and complement each other in combating global deterioration of the environment and biodiversity loss.     

Conservation-oriented restoration—a two for one method to restore both threatened species and their habitats

There is an urgent need for a new conservation approach as mere designation of protected areas, the primary approach to conserving biodiversity, revealed its low conservation efficiency and inability to cope with numerous challenges faced by nature in the Anthropocene. The paper discusses the new concept, which proposes that ecological restoration becomes an integral part of conservation planning and implementation, and is done using threatened plant species that are introduced not only into locations where they currently grow or grew in the recent past, but also into suitable locations within their potential distribution range. This new concept is called conservation-oriented restoration to distinguish it from the traditional restoration. Although the number of restoration projects focusing on recreation of once existing natural habitats is instantly growing, the majority of ecological restoration projects, in contrast to conservation-oriented restoration, have predominantly utilitarian goals, e.g.improvement or air quality, erosion control or soil replenishment. Conservation-oriented restoration should not be seen as an alternative either to the latter, or to the conservation dealing with particular threatened species(species-targeted conservation). These three conservation approaches, traditional ecological restoration, species-targeted conservation, and conservation-oriented restoration differ not only in broadly defined goals and attributes of their targets, but also in the types of ecosystems they are applicable to, and complement each other in combating global deterioration of the environment and biodiversity loss.     

Conservation-oriented restoration—a two for one method to restore both threatened species and their habitats

There is an urgent need for a new conservation approach as mere designation of protected areas, the primary approach to conserving biodiversity, revealed its low conservation efficiency and inability to cope with numerous challenges faced by nature in the Anthropocene. The paper discusses the new concept, which proposes that ecological restoration becomes an integral part of conservation planning and implementation, and is done using threatened plant species that are introduced not only into locations where they currently grow or grew in the recent past, but also into suitable locations within their potential distribution range. This new concept is called conservation-oriented restoration to distinguish it from the traditional restoration. Although the number of restoration projects focusing on recreation of once existing natural habitats is instantly growing, the majority of ecological restoration projects, in contrast to conservation-oriented restoration, have predominantly utilitarian goals, e.g.improvement or air quality, erosion control or soil replenishment. Conservation-oriented restoration should not be seen as an alternative either to the latter, or to the conservation dealing with particular threatened species(species-targeted conservation). These three conservation approaches, traditional ecological restoration, species-targeted conservation, and conservation-oriented restoration differ not only in broadly defined goals and attributes of their targets, but also in the types of ecosystems they are applicable to, and complement each other in combating global deterioration of the environment and biodiversity loss.     

A conservation appraisal of the rare and endemic vascular plants of Pitcairn Island

The flora of the Pitcairn Islands consists of 81 species, of which 10 are endemic. IUCN Red List threat categories show that over 60% of the indigenous flora is threatened within the island, and over 20% is threatened globally. To provide a more objective regional assessment that could prioritise conservation management, a system of threat scores was applied to each taxon based on potential threat due to habitat damage or exploitation. The main threats affecting the flora and vegetation are posed by habitat clearance, spread of invasive species, small population sizes or restricted distributions, erosion, lack of a frugivorous bird and exploitation. Addressing these threats by means of a system of nature reserves, species-specific recovery plans and control of invasive species, erosion and exploitation, will start to combat these problems. However, any conservation activities must be implemented in conjunction with the interests of the local community, and in consultation with them, in order to ensure success.     

Protected species and predator detection dog use in New Zealand wildlife conservation projects

In many New Zealand threatened species (birds, lizards, frogs, invertebrates) recovery programmes dogs are a significant conservation management tool. Protected species detection dogs have regularly been used to locate rare birds since the 1970’s and more recently lizards. They have been used to detect, but not capture, kakapo, takahe, kiwi, whio, pateke, taiko, skinks and geckos, for monitoring and translocation purposes. Kakapo would possibly be extinct today if dogs had not been used to locate birds on Stewart Island and Fiordland for translocation to predator-free islands before predators and old age eliminated these original remnant populations. Use of these dogs on the kiwi recovery projects has advanced the progress of these projects by about ten years. Predator detection dogs support threatened species recovery programmes and their role is to enhance other predator control methods. They have been regularly used since 2002 following a successful three-year pilot project to prove their usefulness. These dogs are used to detect the presence of mammalian predators including rodents, mustelids, cat and hedgehog. They are particularly useful when predator numbers are low when other predator detection methods (tracking tunnels, traps, gnaw sticks) have difficulty confirming their presence. Once detected by the dogs the predators are killed using toxins, traps or shooting. Dogs are used for: surveillance of supposedly predator-free sites; as a tool to focus predator a process of handler application and interview, and a two-step assessment and certification system for dogs and handlers guide these Department of Conservation dog programmes. There are currently 11 predator dog handlers and 26 protected species dog handlers in the programmes.     

The role of taxonomy in species conservation

Taxonomy and species conservation are often assumed to be completely interdependent activities. However, a shortage of taxonomic information and skills, and confusion over where the limits to 'species' should be set, both cause problems for conservationists. There is no simple solution because species lists used for conservation planning (e.g. threatened species, species richness estimates, species covered by legislation) are often also used to determine which units should be the focus of conservation actions; this despite the fact that the two processes have such different goals and information needs. Species conservation needs two kinds of taxonomic solution: (i) a set of practical rules to standardize the species units included on lists; and (ii) an approach to the units chosen for conservation recovery planning which recognizes the dynamic nature of natural systems and the differences from the units in listing processes that result. These solutions are well within our grasp but require a new kind of collaboration among conservation biologists, taxonomists and legislators, as well as an increased resource of taxonomists with relevant and high-quality skills.     

基于Dobson算法的中国受威胁陆栖哺乳类优先保护识别与保护现状分析

优先保护区识别对受威胁物种的多样性保护具有重要价值。基于GIS空间分析、管理及预测能力,以中国受威胁陆栖哺乳动物为对象,建立受威胁物种的分布二值网格系统;利用Dobson算法对研究区3810个网格单元进行筛除,确定全国范围下受威胁物种的优先保护区域;结合中国主要的自然保护地分布数据（国家公园和自然保护区）,采用保护空缺方法分析优先保护区内受威胁动物的保护现状。研究发现,29个50km×50km的网格单元就包含了全部的受威胁陆栖哺乳物种,其中位于喜马拉雅山东南区等地的10个网格区域覆盖有80%以上的物种,其所处的10组县级行政区内被主要自然保护地保护的土地面积占25.9%,物种数占83.6%,存在一定的保护空缺。本文采用Dobson排除算法,以小面积规则网格为基本单元,顾及到了实验结果的客观性,有助于提高优先保护区的识别效率。     

How bryophytes came out of the cold: successful cryopreservation of threatened species

The use of ex situ techniques for the conservation of threatened plants has been increasing over the past decades. Cryopreservation is often used for the long-term storage of plant germplasm where conventional methods (i.e. seedbanking) are inappropriate. Simple encapsulation–dehydration protocols were developed for the cryopreservation of bryophytes at The Royal Botanic Gardens, Kew, as part of an ex situ project for the conservation of UK threatened species. The applicability of these methods was tested on 22 species with a broad range of ecological requirements and found to be highly successful across the board. Regeneration rates from frozen material were >68% for all species tested and half had regeneration rates of 100%. The high regeneration rate and broad applicability of the protocols across a range of species was attributed to a combination of the inherent totipotency of bryophytes and the in-built recovery periods in the pre-treatment protocol. In conclusion, bryophytes are well suited to cryopreservation and such techniques would be applicable for the long-term storage of similar conservation collections across the globe.     

Carabid beetle (Coleoptera: Carabidae) conservation in New Zealand

An overview of carabid beetles in the New Zealand conservation context is provided. Processes for threatened species recovery within the New Zealand Department of Conservation are outlined, and the Department’s two major beetle-related recovery documents (The Conservation Requirements for New Zealand’s Nationally Threatened Invertebrates, and The Carabid Beetle Recovery Plan) are discussed. A subjective consideration of the merits and drawbacks of both the documents, and the systems that support them, is presented, along with an option for the way forward for threatened species conservation in New Zealand.     

Impacts of tourism on threatened plant taxa and communities in Australia

Summary Many Australian plant species and communities appear to be threatened by tourism. A review of management plans, recovery plans and a survey of experts found that tourism was considered to be a direct or indirect threatening process for 72 plant taxa. This is one fifth of threatened species for which threats have been identified. In addition, many more species are listed as threatened by weeds, trampling, pathogens, clearing and collecting. These are often indirect impacts of tourism, particularly in conservation reserves where tourism is the only commercial activity permitted. Tourism was also considered to be a threatening process for several plant communities. A lack of recognition of the importance of direct and indirect impacts of tourism may potentially hinder the conservation of plant species and communities both in Australia and overseas. It may also limit the effectiveness of sustainable tourism policies, particularly in conservation reserves.     

Securing a future for China's plant biodiversity through an integrated conservation approach

The severely threatened Chinese flora urgently needs a new, well adapted to China and properly formulated conservation strategy. The present review provides a detailed conservation methodology that complements previously described guidelines for preservation of plant species with extremely small populations (PSESP) in China. This review adds to the above concept in several aspects, making it relevant to all threatened Chinese plant species. The proposed integral conservation strategy has the following crucial components: -ecoregional basis for conservation planning and implementation; -a unified scoring system that is used in regional systematic planning for reserve design, monitoring and assessment of efficiency of a reserve network, and creation of seed banks and living collections; -a focus on population demography and the presence of naturally occurring regeneration as the key criteria for defining the conservation status of a species and the appropriate major focus of the species recovery plan; -creation of multi-species living collections that preserve species genetic variation and provide material for in situ actions; -experimental translocation of threatened species into multiple locations within and outside their known range. Adopting and implementing these strategies successfully and more fully in China requires that the country changes PA legislation and improves PA management, the National Science Foundation of China (NSFC) re-prioritizes the type of research that receives research funds, and local scientists improve their approach toward information sharing.     

Characteristics and preferences of volunteers in a large national bird conservation program in Australia

Volunteers and citizen scientists can make an important contribution to bird monitoring and threatened species conservation projects. Members of BirdLife Australia’s Threatened Bird Network (TBN), a programme which encouraged community participation in conservation projects for threatened birds, were surveyed in 2013 to gain an insight into their demographics and volunteering motivation and preferences. In the 2013 survey, a large proportion of survey respondents were aged between 55 and 74 years old and over half were retired, representing a higher proportion of retired participants than found in a similar study of TBN members in 2000. A large proportion (69%) of respondents had volunteered with TBN projects (occasionally or at least once per year), despite being involved with other environmental groups. Respondents that volunteered mostly preferred short‐term (one day) field‐based volunteer activities, with nearly half also preferring to travel 50 km or less to participate in a project. Less than one third of respondents had never volunteered with TBN projects; this was attributed to not enough projects close to home, time restrictions and lack of transport. Preferences of volunteers in the 2013 survey were similar to those undertaken in 2000 for the majority of responses, including the preference for the activity occurring outdoors, the importance of regular feedback from the organiser, the moderate importance placed on seeing target species and the lack of importance for the provision of transport. A higher importance was placed on the following factors in the 2013 survey responses compared to 2000 (potentially influenced by the higher number of retirees): Having activities closer to home, the activity not being too physically demanding, the opportunity for free time during the activity, good weather was predicted on the day of the activity, existing skills were adequate for the activity, and accommodation was provided if required.