Macrophysiology for a changing world

The Millennium Ecosystem Assessment (MA) has identified climate change, habitat destruction, invasive species, overexploitation and pollution as the major drivers of biodiversity loss and sources of concern for human well-being. Understanding how these drivers operate and interact and how they might be mitigated are among the most pressing questions facing humanity. Here, we show how macrophysiology--the investigation of variation in physiological traits over large geographical, temporal and phylogenetic scales--can contribute significantly to answering these questions. We do so by demonstrating, for each of the MA drivers, how a macrophysiological approach can or has helped elucidate the impacts of these drivers and their interactions. Moreover, we illustrate that a large-scale physiological perspective can provide insights into previously unrecognized threats to diversity, such as the erosion of physiological variation and stress tolerance, which are a consequence of the removal of large species and individuals from the biosphere. In so doing we demonstrate that environmental physiologists have much to offer the scientific quest to resolve major environmental problems.     

Taxonomic homogenization of woodland plant communities over 70 years

Taxonomic homogenization (TH) is the increasing similarity of the species composition of ecological communities over time. Such homogenization represents a form of biodiversity loss and can result from local species turnover. Evidence for TH is limited, reflecting a lack of suitable historical datasets, and previous analyses have generated contrasting conclusions. We present an analysis of woodland patches across a southern English county (Dorset) in which we quantified 70 years of change in the composition of vascular plant communities. We tested the hypotheses that over this time patches decreased in species richness, homogenized, or shifted towards novel communities. Although mean species richness at the patch scale did not change, we found increased similarity in species composition among woodlands over time. We concluded that the woodlands have undergone TH without experiencing declines in local diversity or shifts towards novel communities. Analysis of species characteristics suggested that these changes were not driven by non-native species invasions or climate change, but instead reflected reorganization of the native plant communities in response to eutrophication and increasingly shaded conditions. These analyses provide, to our knowledge, the first direct evidence of TH in the UK and highlight the potential importance of this phenomenon as a contributor to biodiversity loss.     

Speciation and phylogeography of Hawaiian terrestrial arthropods

The Hawaiian archipelago is arguably the world's finest natural laboratory for the study of evolution and patterns of speciation. Arthropods comprise over 75% of the endemic biota of the Hawaiian Islands and a large proportion belongs to species radiations. We classify patterns of speciation within Hawaiian arthropod lineages into three categories: (i) single representatives of a lineage throughout the islands; (ii) species radiations with either (a) single endemic species on different volcanoes or islands, or (b) multiple species on each volcano or island; and (iii) single widespread species within a radiation of species that exhibits local endemism. A common pattern of phylogeography is that of repeated colonization of new island groups, such that lineages progress down the island chain, with the most ancestral groups (populations or species) on the oldest islands. While great dispersal ability and its subsequent loss are features of many of these taxa, there are a number of mechanisms that underlie diversification. These mechanisms may be genetic, including repeated founder events, hybridization, and sexual selection, or ecological, including shifts in habitat and/or host affiliation. The majority of studies reviewed suggest that natural selection is a primary force of change during the initial diversification of taxa.     

The NSW Environmental Services Scheme: Results for the biodiversity benefits index, lessons learned, and the way forward

Summary   In 2002 the Environmental Services Scheme (ESS) was launched in New South Wales, Australia. Its aim was to pilot a process to provide financial incentives to landholders to undertake changes in land use or land management that improved the status of environmental services (e.g. provision of clean water, healthy soils, biodiversity conservation). To guide the direction of incentive funds, metrics were developed for use by departmental staff to score the benefits of land use or land management changes to a range of environmental services. The purpose of this paper is to (i) report on the development of one of these metrics – the biodiversity benefits index; (ii) present the data generated by field application of the metric to 20 properties contracted to the ESS; and (iii) discuss the lessons learned and recent developments of the metric that aim to make it accessible to a wider range of end-users and applications.     

试论生物多样性保护理论与实践面临的困难及现实出路

保护生物学作为一门新兴的交叉科学,已经在最近的一二十年中迅速发展成为一门独立的学科,然而,人们似乎过分沉湎于保护生物学的理论研究之中,却对这样一个事实置若罔闻;保护生物多样性的实践并未能取得预期的成效,生物多样性的危机不仅远未消除,反而越来越严峻,本文从保护生物多样性的伦理妯,保护生物学的理论,保护生物多样性的实践等多个层面上,分析了生物多样性保护面临的重重困难,着重指出,来自社会人文方面的种种不利因素,尤其是经济方面的驱动力,才是制约生物多样性保护的根源所在,并提出通过人文学科的社会经济,政策,法律等方面与自然学科的技术和理论的密切合作研究,综合地探求解决生物多样性危机的有效途径,应该成为保护生物学研究一个新的重点领域。     

传粉者友好型城市：现状与展望

传粉者是全球生物多样性资源的重要组成部分,它们在提供重要生态服务的同时,也依赖生态系统中的食物和筑巢资源实现自身生长和繁殖。在全球传粉动物多样性呈下降趋势之际,城市生态系统因具有丰富的花资源和高异质性的栖息地,已成为传粉者的庇护所。综述了城市环境中传粉动物的多样性现状以及影响传粉者多样性的主要因素,最后讨论了保护城市传粉者多样性所需采取的措施,旨在为建设传粉者友好型城市和维护生态平衡提供参考依据。     

Global variation in thermal tolerances and vulnerability of endotherms to climate change

The relationships among species'' physiological capacities and the geographical variation of ambient climate are of key importance to understanding the distribution of life on the Earth. Furthermore, predictions of how species will respond to climate change will profit from the explicit consideration of their physiological tolerances. The climatic variability hypothesis, which predicts that climatic tolerances are broader in more variable climates, provides an analytical framework for studying these relationships between physiology and biogeography. However, direct empirical support for the hypothesis is mostly lacking for endotherms, and few studies have tried to integrate physiological data into assessments of species'' climatic vulnerability at the global scale. Here, we test the climatic variability hypothesis for endotherms, with a comprehensive dataset on thermal tolerances derived from physiological experiments, and use these data to assess the vulnerability of species to projected climate change. We find the expected relationship between thermal tolerance and ambient climatic variability in birds, but not in mammals—a contrast possibly resulting from different adaptation strategies to ambient climate via behaviour, morphology or physiology. We show that currently most of the species are experiencing ambient temperatures well within their tolerance limits and that in the future many species may be able to tolerate projected temperature increases across significant proportions of their distributions. However, our findings also underline the high vulnerability of tropical regions to changes in temperature and other threats of anthropogenic global changes. Our study demonstrates that a better understanding of the interplay among species'' physiology and the geography of climate change will advance assessments of species'' vulnerability to climate change.     

数字植物标本在科学研究中的应用: 进展及挑战

全球自然历史博物馆中保存着约3.9亿份植物标本,这些标本为科学研究提供了重要支撑。近20年来,随着标本数字化的发展,数字植物标本在科学研究中的应用日益广泛。数字植物标本不仅为标本传统的用途提供了便利,而且衍生出了新的研究主题和方向。鉴于目前中文文献中缺乏数字植物标本在科学研究中的应用概述及所面临挑战的分析,该文概述了全球植物标本数字化的现状,并对数字标本在生物地理学、入侵生物学、气候变化和保护生物学等领域中的应用情况进行了综述。主要集中在以下5个方面:(1)生物地理学研究中物种分布格局及其成因;(2)编制入侵植物名录、重建入侵历史和预测入侵风险;(3)气候变化情景下植物分布格局的变迁机制;(4)生物多样性编目和保护区规划;(5)其他相关应用(如农业和民族药物学等)。最后,针对数字植物标本应用中存在的问题进行了讨论,并提出了应对策略,同时提出开发将数字标本与其他学科大数据进行整合分析的新理论、新方法和新工具,为植物学及相关学科提供参考。