Linking microbial diversity with ecosystem functioning through a trait framework

Trait-based microbial biogeography provides a path for the mechanistic understanding of relationships between microbialdiversity and ecosystem functioning. In this mini-review, we identify the scenarios in which to use traits to characterize themicrobial community and propose a simple trait-based conceptual framework to link microbial communities withecosystem functions.

An overview of the applicability of functional diversity in Biological Conservation / Uma visão geral sobre a aplicabilidade da diversidade funcional na Conservação Biológica

Abstract Functional diversity is increasingly pointed as a useful approach to reach Biological Conservation goals. Here, we provide an overview of the functional diversity approach status in the Biological Conservation field. We sought for peer-reviewed papers published over a period of twenty years (from 1994 to 2014). First we used the general topic "functional diversity" and then refined our search using the key-word "conservation". We have identified the conservation strategies addressed, the organism studied, and the continent of study site in each paper. Thirteen classes of conservation strategies were identified. Plants were the most commonly studied organism group and most study-sites were located in Europe. The functional diversity approach was introduced in the Biological Conservation field in the early 2000's and its inclusion in conservation strategies is broadly advised. However, the number of papers that operationalise such inclusion by developing models and systems is still low. Functional diversity responds differently and eventually better than other measures to changes in land use and management, which suggests that this approach can potentially better predict the impacts. More studies are needed to corroborate this hypothesis. We pointed out knowledge gaps regarding identification of the responses for functional diversity about urban impacts and in research on the level of management intensity of land needed to maintain functional diversity. We recommend the use of functional diversity measures to find ecological indicators. Future studies should focus on the development of functional diversity measures of other taxa beyond plants as well as test hypothesis in tropical ecosystems.

Resumo A diversidade funcional é crescentemente apontada como uma abordagem útil para alcançar os objetivos da Conservação Biológica. Neste artigo, nós mostramos uma visão geral do status desta abordagem no campo da Conservação Biológica. Nós buscamos por artigos revisados por pares publicados ao longo de vinte anos (desde 1994 até 2014) usando, primeiramente, o tópico geral "functional diversity" e em seguida, refinamos a pesquisa com a palavra-chave "conservation". Identificamos a estratégia de conservação abordada, o organismo estudado e o continente da área de estudo de cada artigo. Treze classes de estratégias de conservação foram identificadas. As plantas foram o grupo de organismos mais amplamente estudado e a maior parte das áreas de estudo estavam localizadas no continente europeu. A abordagem da diversidade funcional entrou no campo da Conservação Biológica no início dos anos 2000 e sua inclusão nas estratégias de conservação é amplamente recomendada. Entretanto, o número de artigos que operacionalizam tal inclusão ainda é pequeno. A diversidade funcional responde diferentemente e, eventualmente, melhor do que as outras medidas às mudanças no uso da terra e no manejo, sugerindo que essa abordagem pode potencialmente prever melhor os impactos. Mais estudos são necessários para corroborar esta hipótese. Destacamos lacunas de conhecimento sobre a identificação das respostas da diversidade funcional aos impactos urbanos e sobre a busca pelo nível de intensidade de manejo da terra necessária para manter a diversidade funcional. Recomendamos o uso de medidas de diversidade funcional para encontrar indicadores ecológicos. Estudos futuros devem focar no desenvolvimento de medidas de diversidade funcional de outros taxa, além das plantas bem como testar hipóteses em ecossistemas tropicais.

Beyond specimens: linking biological collections, functional ecology and biodiversity conservation / Más allá de los especímenes: uniendo colecciones biológicas, ecología funcional y conserva- ción de la biodiversidad

Several anthropogenic pressures are threatening biodiversity and may increase in the next years, altering eco- logical processes and ecosystem services. Biological collections offer a rich source of information to develop studies of functional ecology and biodiversity conservation. Key information related to morphology, physiology and life history could be obtained through functional traits provided by specimens in biological collections. Additionally, museum collections present a great potential for document changes of habitat disturbance, using response/effect framework, functional diversity measures, and fluctuating asymmetry approaches. Despite limitations of specimens in data such as abundance, imprecisions in specimen´s georeferencing, errors in taxonomic identification and the poor preservation state of some specimens, biological collections contain vast data banks, which could be useful in the contribution of key information for land use management and conservation planning.

Varias presiones antropogénicas amenazan la biodiversidad y pueden aumentar en los próximos años, alterando procesos ecológicos y servicios ecosistémicos. Las colecciones biológicas ofrecen una abundante fuente de información para desarrollar estudios de ecología funcional y conservación de la biodiversidad. Información clave relacionada con morfología, fisiología e historia de vida puede ser obtenida a través de los rasgos fun- cionales proporcionados por los ejemplares de colecciones biológicas. Adicionalmente, las colecciones de los museos presentan un gran potencial para documentar cambios en la perturbación del hábitat usando el marco de efecto/respuesta, las medidas de diversidad funcional, y el enfoque de asimetría fluctuante. A pesar de las limitaciones de los especímenes en datos como la abundancia, imprecisiones en la georreferenciación de los especímenes, errores en la identificación taxonómica y el mal estado de conservación de algunos ejemplares, las colecciones biológicas contienen enormes bancos de datos que podrían ser útiles en el aporte de información clave para el manejo del uso del suelo y los planes de conservación.

An overview of the applicability of functional diversity in Biological Conservation

Abstract Functional diversity is increasingly pointed as a useful approach to reach Biological Conservation goals. Here, we provide an overview of the functional diversity approach status in the Biological Conservation field. We sought for peer-reviewed papers published over a period of twenty years (from 1994 to 2014). First we used the general topic functional diversity and then refined our search using the key-word conservation. We have identified the conservation strategies addressed, the organism studied, and the continent of study site in each paper. Thirteen classes of conservation strategies were identified. Plants were the most commonly studied organism group and most study-sites were located in Europe. The functional diversity approach was introduced in the Biological Conservation field in the early 2000s and its inclusion in conservation strategies is broadly advised. However, the number of papers that operationalise such inclusion by developing models and systems is still low. Functional diversity responds differently and eventually better than other measures to changes in land use and management, which suggests that this approach can potentially better predict the impacts. More studies are needed to corroborate this hypothesis. We pointed out knowledge gaps regarding identification of the responses for functional diversity about urban impacts and in research on the level of management intensity of land needed to maintain functional diversity. We recommend the use of functional diversity measures to find ecological indicators. Future studies should focus on the development of functional diversity measures of other taxa beyond plants as well as test hypothesis in tropical ecosystems.

Resumo A diversidade funcional é crescentemente apontada como uma abordagem útil para alcançar os objetivos da Conservação Biológica. Neste artigo, nós mostramos uma visão geral do status desta abordagem no campo da Conservação Biológica. Nós buscamos por artigos revisados por pares publicados ao longo de vinte anos (desde 1994 até 2014) usando, primeiramente, o tópico geral functional diversity e em seguida, refinamos a pesquisa com a palavra-chave conservation. Identificamos a estratégia de conservação abordada, o organismo estudado e o continente da área de estudo de cada artigo. Treze classes de estratégias de conservação foram identificadas. As plantas foram o grupo de organismos mais amplamente estudado e a maior parte das áreas de estudo estavam localizadas no continente europeu. A abordagem da diversidade funcional entrou no campo da Conservação Biológica no início dos anos 2000 e sua inclusão nas estratégias de conservação é amplamente recomendada. Entretanto, o número de artigos que operacionalizam tal inclusão ainda é pequeno. A diversidade funcional responde diferentemente e, eventualmente, melhor do que as outras medidas às mudanças no uso da terra e no manejo, sugerindo que essa abordagem pode potencialmente prever melhor os impactos. Mais estudos são necessários para corroborar esta hipótese. Destacamos lacunas de conhecimento sobre a identificação das respostas da diversidade funcional aos impactos urbanos e sobre a busca pelo nível de intensidade de manejo da terra necessária para manter a diversidade funcional. Recomendamos o uso de medidas de diversidade funcional para encontrar indicadores ecológicos. Estudos futuros devem focar no desenvolvimento de medidas de diversidade funcional de outros taxa, além das plantas bem como testar hipóteses em ecossistemas tropicais.

Balancing consevvation needs with uses of river ecoysstems / Compatibilizando las necesidades con los usos en la conservación de los ecosistemas fluviales

Rivers are among the most diverse and threatened ecosystems on the Earth, but their conservation is a requisite for sustainable development. Conservation must consider both the structure and the functioning of the elements (usually species), as well as of their ecosystem. Therefore, successful river conservation must go beyond protecting species to protecting entire ecosystems and the processes that give each ecosystem its special characteristics. River conservation has to meet the legitimate aspirations of human populations for clean, readily available supply of water, without compromising the water needs of ecosystems and nature. Therefore, it is essential to take a landscape perspective that incorporates processes occurring in the riverine riparian areas as well as on connectivity with the land and across the river network.

Los ríos son uno de los ecosistemas más diversos y amenazados de la Tierra, pero su conservación es esencial para un desarrollo sostenible. La conservación debe tener en cuenta tanto la estructura y el funcionamiento de los elementos (por lo general las especies), así como de su ecosistema. Por tanto, la conservación debe ir más allá de la protección de especies, para contemplar la protección de ecosistemas enteros y de los procesos que en ellos acontecen y les proporcionan sus especiales características. La conservación fluvial tiene que responder a las legítimas aspiraciones de las poblaciones humanas de un suministro limpio de agua fácilmente disponible, sin comprometer las necesidades de agua de los ecosistemas y la naturaleza. Por tanto, es fundamental adoptar una perspectiva del paisaje que incorpore procesos que ocurren en las áreas ribereñas fluviales, así como la conectividad con el ecosistema terrestre y toda la red fluvial.

Plant functional traits with particular reference to tropical deciduous forests: A review.

Functional traits (FTs) integrate the ecological and evolutionary history of a species, and can potentially be used to predict its response as well as its influence on ecosystem functioning. Study of inter-specific variation in the FTs of plants aids in classifying species into plant functional types (PFTs) and provides insights into fundamental patterns and trade-offs in plant form and functioning and the effect of changing species composition on ecosystem functions. Specifically, this paper focuses on those FTs that make a species successful in the dry tropical environment. Following a brief overview, we discuss plant FTs that may be particularly relevant to tropical deciduous forests (TDFs). We consider the traits under the following categories: leaf traits, stem and root traits, reproductive traits, and traits particularly relevant to water availability. We compile quantitative information on functional traits of dry tropical forest species. We also discuss trait-based grouping of plants into PFTs. We recognize that there is incomplete knowledge about many FTs and their effects on TDFs and point out the need for further research on PFTs of TDF species, which can enable prediction of the dynamics of these forests in the face of disturbance and global climate change. Correlations between structural and ecophysiological traits and ecosystem functioning should also be established which could make it possible to generate predictions of changes in ecosystem services from changes in functional composition.