昆虫多样性的保护现状与趋势

昆虫是自然界中种类最多的动物,在生态系统中具有重要的作用,但是昆虫在生物多样性保护中没有受到应有的重视.多个实例证明,很多昆虫种类处在数量下降甚至绝灭的状态.究其原因,人类的认识不足是导致昆虫多样性保护未受重视的主要原因,栖息地破坏是昆虫濒危的主要原因.由于昆虫生活史的特殊性,其保护策略与大型动物的保护有很大不同.昆虫多样性的保护可以与人类活动共存.     

The Neglect of Parasitic Hymenoptera in Insect Conservation Strategies: The British Fauna as a Prime Example

Parasitic Hymenoptera, the major group of insects having the parasitoid life style, are extremely species rich and of wide significance in terrestrial ecosystems. Although the nature of their role with respect to species richness and stability in their host communities is unclear, the evidence that parasitoids can have a profound impact on host populations is incontestable. Because parasitic Hymenoptera are typically very specialised and occupy a high trophic level, species in this group are likely to be particularly vulnerable to local or even global extinction. That their particular conservation needs and extinction risks are rarely considered stems largely from our ignorance of them, both taxonomically and biologically. In Britain, parasitic Hymenoptera comprise about 25% (or perhaps significantly more) of the total insect fauna. The view is advanced that neglect consequent on the continuing poor knowledge of parasitic Hymenoptera in such an otherwise well-studied fauna is a serious conservation problem, undermining the rationality of various current conservation initiatives and analyses. Recommendations to redress this are made.     

Practical importance for conservation of insect diversity in China

Insects are one of the most important groups in the natural world. They affect the life and welfare of humans in many different ways. While some insects are referred to as pests, others are beneficial to humans. For example, they may serve a function as pollinators of many cultivated plants, as natural enemies of harmful species, or as producers of valuable materials such as honey and silk. Several insect species, however, are not currently known as being harmful or beneficial. Nevertheless they are extremely important as essential components of both natural and modified ecosystems. In China, only 1% of insect species described are major pests. The majority of insects are either neutral or beneficial to humans. China, with its vast territory, diverse climate and ecosystems, is amongst the richest countries in insect diversity. However, as a result of the economic and population growth and development, Chinas insect diversity is now faced with habitat degradation, species extinction, and a decline in the natural enemies of harmful pests. These problems are due to the expansion of agriculture, urbanization, industrialization, pollution, mining, tourism, introduced species, hunting, and the illegal trade in endangered species. In order to exploit the beneficial components of insects as biological resources and to effectively control their harmful aspects, many national strategies, legal actions and capacity-building activities have been developed and implemented. These efforts work towards the goal of insect diversity conservation in China.     

Bee and non-bee pollinator importance for local food security

Pollinators are critical for food security; however, their contribution to the pollination of locally important crops is still unclear, especially for non-bee pollinators. We reviewed the diversity, conservation status, and role of bee and non-bee pollinators in 83 different crops described either as important for the global food market or of local importance. Bees are the most commonly recorded crop floral visitors. However, non-bee pollinators are frequently recorded visitors to crops of local importance. Non-bee pollinators in tropical ecosystems include nocturnal insects, bats, and birds. Importantly, nocturnal pollinators are neglected in current diurnal-oriented research and are experiencing declines. The integration of non-bee pollinators into scientific studies and conservation agenda is urgently required for more sustainable agriculture and safeguarding food security for both globally and locally important crops.     

Trophic structure of coastal freshwater stream fishes from an Atlantic rainforest: evidence of the importance of protected and forest-covered areas to fish diet

The role of riparian forests in the functioning of aquatic ecosystems is well known, and they are recognized as an important food source for riverine fauna. This study investigates the trophic structure of coastal freshwater stream fishes from a large conservation area in an Atlantic rainforest using stomach content and food availability analyses. Four samples were collected from 19 sample sites. Fishes were caught with electrofishing. Prey were sampled with trays, Surber, traps, and electrofishing to evaluate the availability of food resources. The diets of 20 fish species were determined from the stomach contents of 1691 individuals. Terrestrial and aquatic insects and detritus were the most consumed items. Fish diet and prey availability were not seasonally dependent. A cluster analysis showed five trophic functional groups: terrestrial insectivores, aquatic insectivores, detritivores, carnivores, and omnivores. Insectivores predominated in species richness (60%), abundance (47%) and biomass (39%). Allochthonous and autochthonous items were found in similar proportions in the environment; however, allochthonous items were representative for insectivores and detritivores, whereas autochthonous items were important for primarily aquatic insectivores. The preference for certain insects by insectivorous fishes was associated with food selectivity rather than the availability of the resource and demonstrated the strong relationship between feeding behavior and food preference. The absence of seasonal variation in the diets of the fishes was possibly related to the consistent food supply. Our results confirm the role of the forest as a food provider for stream fishes, such as terrestrial insects and plant debris/detritus (also consumed by aquatic insects, which subsequently serve as food for fish), highlighting the importance of conserving the Brazilian Atlantic rainforests.     

生物系统学与自然保护

生物系统学的知识是自然监测和保护的基础。随着自然保护观念由强调重点物种或代表性生态系统保护转向强调保护地球上生物多样性,生物系统学将在自然保护中发挥更大的作用。     

Conservation of native fauna in highly invaded systems: managing mammalian predators in New Zealand

Programs to conserve native fauna in invaded ecosystems often aim to reduce the impacts of alien predators. This approach can lead to unexpected outcomes in the native and the remaining invasive components of restored ecosystems. In New Zealand, suppression and eradication of invasive mammalian predators are well‐established conservation strategies, particularly on offshore islands and in mainland ecosanctuaries. Predator control has achieved important conservation gains over increasingly large areas but these can be offset by the ecological release of other uncontrolled pest species. In addition, novel ecosystems created by selective predator control and reintroductions of locally extinct or depleted native species may have unexpected trajectories as they evolve. Effective conservation requires new techniques for controlling entire suites of invasive predators over large areas, routine monitoring of the conservation outcomes of predator control, and better understanding of how modified, and in some cases reconstructed, seminatural ecosystems change when invasive predators are removed.     

Endophytic insect communities of two prairie perennials (Asteraceae: Silphium spp.)

Little is known of the biology of most insects that are endemic to prairie ecosystems of North America, with the exception of large and conspicuous species. In particular, species that are sequestered within plant tissues are commonly overlooked. In this paper, we assess the biodiversity of endophytic insects that inhabit stems of Silphium laciniatum L. and S. terebinthinaceum Jacquin (Asteraceae), endemic plants of tallgrass prairies. Endophytic herbivores, gall wasps Antistrophus rufus Gillette and A. minor Gillette (Hymenoptera: Cynipidae) and stem-boring larvae of the beetle Mordellistena aethiops Smith (Coleoptera: Mordellidae) were attacked by 10 species of natural enemies. We report new host plant associations for herbivores, and new host insect associations for parasitoids. The two plant species differed significantly in their densities of gall wasps and the vertical dispersion of galls within stems. Interactions within and between trophic levels attest to the biodiversity of endophytic insect communities, and the specialized nature of these insects suggests they are highly vulnerable to habitat conservation practices that involve destruction of dead vegetation.     

Non-native plants rarely provide suitable habitat for native gall-inducing species

For insect herbivores, a critical niche requirement—possibly the critical niche requirement—is the presence of suitable host plants. Current research suggests that non-native plants are not as suitable as native plants for native herbivores, resulting in decreases in insect abundance and richness on non-native plants. Like herbivores, gall-forming insects engage in complex, species-specific interactions with host plants. Galls are plant tissue tumors (including bulbous or spindle-shaped protrusions on leaves, stems and other plant organs) that are induced by insects through physical or chemical damage (prompting plants to grow a protective tissue shell around the insect eggs and larvae). As such, we hypothesized that gall-inducing insect species richness would be higher on native than non-native plants. We also predicted higher gall-inducing insect species richness on woody than herbaceous plants. We used an extensive literature review in which we compiled gall host plant species by genus, and we assigned native or non-native (or mixed) status to each genus. We found that native plants host far more gall-inducing insect species than non-native plants; woody plants host more gall-inducing species than herbaceous plants; and native woody plants host the most gall-inducing species of all. Gall-inducing species generally are a very cryptic group, even for experts, and hence do not elicit the conservation efforts of more charismatic insects such as plant pollinators. Our results suggest that non-native plants, particularly non-native woody species, diminish suitable habitat for gall-inducing species in parallel with similar results found for other herbivores, such as Lepidopterans. Hence, the landscape-level replacement of native with non-native species, particularly woody ones, degrades taxonomically diverse gall-inducing species (and their inquilines and parasitoids), removing multiple layers of diversity from forest ecosystems.

     

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.     

Entomophagous insects – an introduction

This special issue contains papers presented at the 6th International Entomophagous Insects Conference. Entomophagous insects consume other insects. They are a fundamental component of ecosystems and are extensively used as biocontrol agents. The first article reviews the role of ladybirds in biological control and the second reviews the biological control of stink bugs. The following nine research articles cover the rearing, behavior, life history, and ecology of parasitoid and predator species.     

“Primeval forest relict beetles” of Central Europe: a set of 168 umbrella species for the protection of primeval forest remnants

Identification of forest stands with priority for the conservation of biodiversity is of particular importance in landscapes with a long cultural and agricultural history, such as Central Europe. A group of species with a high indicator value for the naturalness of forest ecosystems are saproxylic insects. Some of these species, especially within the order Coleoptera, have been described as primeval forests relicts. Here, we compiled a list of 168 “primeval forest relict species” of saproxylic beetles based on expert knowledge. These species can serve as focal and umbrella species for forest conservation in Central Europe. They were selected because of their dependence on the continuous presence of primeval forest habitat features, such as over-mature trees, high amounts of dead wood, and dead wood diversity, as well as their absence in managed Central European forests. These primeval forest relict species showed a moderately strong clumping pattern within the phylogeny of beetles, as indicated by phylogenetic signal testing using the D-statistic. When we controlled for phylogenetic relatedness, an ordinal linear model revealed that large body size and preference for dead wood and trees of large diameter are the main characteristics of these species. This list of species can be used to identify forest stands of conservation value throughout Central Europe, to prioritize conservation and to raise public awareness for conservation issues related to primeval forests.     

The Anthropocene biosphere: do threatened species,Red Lists,and protected areas have a future role in nature conservation?

Threatened species, red listing and an increase in protected areas have been, and currently remain, key foci for nature conservation. Yet as it becomes more evident we are living in the Anthropocene biosphere the relevance and value of those activities declines. The “new conservation”, controversially argued for by some since 2011, has different foci and strategies, yet they are perhaps too anthropic. A nature conservation for the Anthropocene biosphere must be built on an understanding of biocultural diversity, take account of the conservation potential of novel ecosystems, de-emphasise the role of protected areas while examining the role of novel ex situ approaches to biodiversity conservation and review effort and expenditure on Red Listing of threatened species as conservation actions. The 2016 IUCN World Conservation Congress offers potential to provide global leadership towards a new nature conservation for the Anthropocene biosphere.     

Wetland use by brood‐rearing female ducks in a boreal forest landscape: the importance of food and habitat

Habitat use by birds may be related to single or interacting effects of habitat characteristics, food resources and predators, but little is known about factors affecting habitat use by wetland species in boreal ecosystems. We surveyed brood‐rearing females and ducklings of four common boreal duck species to assess the effects of habitat structure and food resources on the use of wetlands by brood‐rearing ducks. Although wetland use by duck broods was related to habitat structure and food abundance, their relative importance varied among duck species. For the Common Goldeneye Bucephala clangula, a diving duck, aquatic invertebrates and large emerging insects were the most important factors associated with wetland use. Common Teal Anas crecca broods were observed more often on wetlands with greater Dipteran emergence, whereas in Mallard Anas platyrhynchos both habitat structure and large emerging insects were important. The occurrence of Eurasian Wigeon Anas penelope broods was related to emerging Diptera and habitat structure but the associations were not strong. The varying habitat and food requirements of common duck species could influence the success of wetland management programmes, and consideration of these factors may be particularly important for initiatives aimed at harvested species or species of conservation concern.     

水生昆虫对汞的吸收、富集和水-陆转移

汞是一种人体非必需且有毒的重金属元素,全球性的汞污染因对人类健康具有损害而备受社会关注。自然界中的汞绝大部分会通过江河径流和雨雪尘土的沉降而进入水生生态系统,每年进入水生生态系统的汞至少有10 000吨。水生昆虫作为重要的消费者生物存在于水生生态食物网中,是其重要的组成部分,在水生生态系统的物质循环中扮演着重要角色。本文介绍了近年来水生昆虫与汞之间的相关研究,重点总结了水生昆虫对汞的吸收和富集程度,分析了水生昆虫在汞的水-陆转移中的作用。研究数据表明,水生昆虫对汞的吸收程度与环境因素有关,并通过不同的途径转移到陆地生态系统中,对陆地生态系统上层食物链的生物存在一定的威胁,同时也需注意在对水生昆虫进行开发利用的同时,考虑汞是否超标的因素。     

Habitat use, diet and roost selection by the Big Brown Bat (Eptesicus fuscus) in North America: a case for conserving an abundant species

Insectivorous bats are integral components of terrestrial ecosystems. Despite this, a growing number of factors causing world‐wide declines in bat populations have been identified. Relatively abundant species are important for bat conservation because of their role in ecosystems and the research opportunities they offer. In addition, species that have been well‐studied present unique opportunities to synthesize information and highlight important areas of focus for conservation and research. This paper focuses on a well‐studied abundant bat, Eptesicus fuscus. I review the relevant literature on habitat use, diet and roost selection by E. fuscus in North America, and highlight important areas of conservation and research for this species, including the effects of roost disturbance, control of economically important insect pests, exposure to pesticides, long‐term monitoring of populations, and the potential consequences of expanding populations. These issues have broad implications for other species and can be used to focus future research and conservation efforts.     

Conservation and the cricket culture in China

Several species of Tettigoniidae and Grylloidea are collected and traded as singing or fighting insects in China. There is anecdotal evidence that this trade is causing a reduction in the ranges and populations of some species. However, before any conservation status can be assigned to any species reliably, it will be necessary to reconcile the long-established traditional classification system of singing and fighting insects with scientific classification, determine the ranges and monitor the populations of selected species of commonly traded species, and initiate an educational programme for invertebrate conservation using these crickets as flagship taxa.     

Climate change effects on animal ecology: butterflies and moths as a case study

Butterflies and moths (Lepidoptera) are one of the most studied, diverse, and widespread animal groups, making them an ideal model for climate change research. They are a particularly informative model for studying the effects of climate change on species ecology because they are ectotherms that thermoregulate with a suite of physiological, behavioural, and phenotypic traits. While some species have been negatively impacted by climatic disturbances, others have prospered, largely in accordance with their diversity in life-history traits. Here we take advantage of a large repertoire of studies on butterflies and moths to provide a review of the many ways in which climate change is impacting insects, animals, and ecosystems. By studying these climate-based impacts on ecological processes of Lepidoptera, we propose appropriate strategies for species conservation and habitat management broadly across animals.     

Anthropo-entomophagy: Cultures, evolution and sustainability

Environmental cycles and human factors have altered ecosystems throughout the world. Natural resources have acquired high value because they are important to life and the survival of human beings. Among these resources are edible insects. They have many important features and, to date, up to 2086 species are consumed by 3071 ethnic groups. Rural people, who primarily search, gather, fix, commercialize and store this important natural resource, do not exterminate them. This is because rural people exploit only the central part of the insects' population curves. Nonetheless, some species are overexploited. Anthropo-entomophagy (eating of insects by humans) constitutes a major source of nutrition and these foods are eaten in 130 countries, with the African and American continents being the most entomophagous until now. It exists in protocultures (care is given to the edible insect species) and formal cultures, such as in Mexico, which date back to prehisphanic times. According to anthropologists the "saving gene theory" is based on insect ingestion, which, since the Paleolithic era, has given human beings reproductive success. The evolution of anthropo-entomophagy has been achieved in many ways, from the point of view of collection, fixing, marketing and consumption, and for the insects' organoleptical qualities. The sustainability of these species is fundamental; therefore, it is necessary to take certain measures for species conservation. In Mexico, more than 100 species of edible insects have been tested for their sustainability over 500 years, from the Spanish conquest to the present.