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151.
152.
The contribution of patch‐scale conditions is greater than that of macroclimate in explaining local plant diversity in fragmented forests across Europe
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Alicia Valdés Jonathan Lenoir Emilie Gallet‐Moron Emilie Andrieu Jörg Brunet Olivier Chabrerie Déborah Closset‐Kopp Sara A. O. Cousins Marc Deconchat Pieter De Frenne Pallieter De Smedt Martin Diekmann Karin Hansen Martin Hermy Annette Kolb Jaan Liira Jessica Lindgren Tobias Naaf Taavi Paal Irina Prokofieva Michael Scherer‐Lorenzen Monika Wulf Kris Verheyen Guillaume Decocq 《Global Ecology and Biogeography》2015,24(9):1094-1105
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Lander Baeten Kris Verheyen Christian Wirth Helge Bruelheide Filippo Bussotti Leena Finér Bogdan Jaroszewicz Federico Selvi Fernando Valladares Eric Allan Evy Ampoorter Harald Auge Daniel Avăcăriei Luc Barbaro Ionu Bărnoaiea Cristina C. Bastias Jürgen Bauhus Carsten Beinhoff Michael Scherer-Lorenzen 《Perspectives in Plant Ecology, Evolution and Systematics》2013,15(5):281-291
One of the current advances in functional biodiversity research is the move away from short-lived test systems towards the exploration of diversity-ecosystem functioning relationships in structurally more complex ecosystems. In forests, assumptions about the functional significance of tree species diversity have only recently produced a new generation of research on ecosystem processes and services. Novel experimental designs have now replaced traditional forestry trials, but these comparatively young experimental plots suffer from specific difficulties that are mainly related to the tree size and longevity. Tree species diversity experiments therefore need to be complemented with comparative observational studies in existing forests. Here we present the design and implementation of a new network of forest plots along tree species diversity gradients in six major European forest types: the FunDivEUROPE Exploratory Platform. Based on a review of the deficiencies of existing observational approaches and of unresolved research questions and hypotheses, we discuss the fundamental criteria that shaped the design of our platform. Key features include the extent of the species diversity gradient with mixtures up to five species, strict avoidance of a dilution gradient, special attention to community evenness and minimal covariation with other environmental factors. The new European research platform permits the most comprehensive assessment of tree species diversity effects on forest ecosystem functioning to date since it offers a common set of research plots to groups of researchers from very different disciplines and uses the same methodological approach in contrasting forest types along an extensive environmental gradient. 相似文献
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Norine Voisin Rhonda E. Schnur Sofia Douzgou Susan M. Hiatt Cecilie F. Rustad Natasha J. Brown Dawn L. Earl Boris Keren Olga Levchenko Sinje Geuer Sarah Verheyen Diana Johnson Yuri A. Zarate Miroslava Hančárová David J. Amor E. Martina Bebin Jasmin Blatterer Alfredo Brusco Alexandre Reymond 《American journal of human genetics》2021,108(5):857-873
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Luc De Keersmaeker Kris Vandekerkhove Arne Verstraeten Lander Baeten Pieter Verschelde Arno Thomaes Martin Hermy Kris Verheyen 《应用植被学》2011,14(1):75-83
Question: Does clear‐felling influence forest herb colonization into post‐agricultural forest? Location: A stand of poplar cultivars with a dense understorey of Acer pseudoplatanus in Muizen forest (northern Belgium), planted in 1952 on farmland adjacent to ancient forest and clear‐felled in 1997. Methods: Shade‐tolerant forest herbs were surveyed in 112 grid‐based sample plots: just before clear‐felling, and 5 and 10 yr afterwards. Shade‐tolerant herbs were subdivided into ancient forest species (AFS) and other shade‐tolerant species (OSS). Effects of clear‐felling on species number per plot, total cover per plot and colonization rate of species groups were compared using non‐parametrical tests. Species number per plot was modelled by means of generalized linear mixed models (GLMMs), with inventory time, distance to the nearest parcel edge, and cover of light‐loving species (LS) as explanatory variables. The C‐S‐R signature (competitive, stress‐tolerant and ruderal strategies, respectively) shift of sample plots was calculated on the selected shade‐tolerant species. Results: Frequency of most species increased during the 10‐yr period. Number of OSS increased more and faster than that of AFS. OSS increased to the level of the adjacent forest, but was lower where LS cover remained high. There was a positive correlation between the change of the colonization rate and the competitive plant strategy. Conclusions: We assume that clear‐felling stimulated generative reproduction of shade‐tolerant herbs, whereas quickly emerging woody species controlled competitive exclusion by LS. Succession of dark and light phases, such as provided by an understorey managed as a coppice, could promote colonization of shade‐tolerant herbs into post‐agricultural forest. 相似文献
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An De Schrijver Pieter De Frenne Evy Ampoorter Lotte Van Nevel Andreas Demey Karen Wuyts Kris Verheyen 《Global Ecology and Biogeography》2011,20(6):803-816
Aim Elevated inputs of biologically reactive nitrogen (N) are considered to be one of the most substantial threats to biodiversity in terrestrial ecosystems. Several attempts have been made to scrutinize the factors driving species loss following excess N input, but generalizations across sites or vegetation types cannot yet be made. Here we focus on the relative importance of the vegetation type, the local environment (climate, soil pH, wet deposition load) and the experimentally applied (cumulative) N dose on the response of the vegetation to N addition. Location Mainly North America and Europe. Methods We conducted a large‐scale meta‐analysis of in situ N addition experiments in different vegetation types, focusing on the response of biomass and species richness. Results Whereas the biomass of grasslands and salt marshes significantly increased with N fertilization, forest understorey vegetation, heathlands, freshwater wetlands and bogs did not show any significant response. Graminoids significantly increased in biomass following N addition, whereas bryophytes significantly lost biomass; shrubs, forbs and lichens did not significantly respond. The yearly N fertilization dose significantly influenced the biomass response of grassland and salt marshes, while for the other vegetation types none of the collected predictor variables were of significant influence. Species richness significantly decreased with N addition in grasslands and heathlands [Correction added on 23 March 2011, after first online publication: ‘across all vegetation types’ changed to ‘in grasslands and heathlands’]. The relative change in species richness following N addition was significantly driven by the cumulative N dose. Main conclusions The decline in species richness with cumulative N input follows a negative exponential pathway. Species loss occurs faster at low levels of cumulative N input or at the beginning of the addition, followed by an increasingly slower species loss at higher cumulative N inputs. These findings lead us to stress the importance of including the cumulative effect of N additions in calculations of critical load values. 相似文献
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Frank Adriaensen Michel Louette Jan Stevens Werner Plompen Geert Verheyen 《Ostrich》2013,84(1-2):330-331
Adriaensen, F., Louette, M., Stevens, J., Plompen, W. & Verheyen, G. 2000. The status of the Forest Fody on Mayotte (Comoros). Ostrich 71 (1 & 2): 330–331. Once, every group of islands in the Malagasy region had its own species of Foudia (Passeriformes, Ploceidae), but in recent years things have changed profoundly. Except for the widespread Madagascar Fody E madagascariences, most of the species are more or less endangered. This paper reports on two surveys of the island of Mayotte (Comores) on the presence of the Forest Fody in October 1993 and March 1995. All other available observations are discussed in view of these results. Currently the population is subdivided in 6 sub-groups. Total population size must be several thousands of birds. The species occupies a wide variety of habitats, but it is remarkable that areas with very similar habitat where not occupied in other parts of the island, even when adjacent to another sub-group. On Mayotte, in sharp contrast with most of the other islands, Forest Fodies live in rather open areas and surely not in evergreen forest. Also in 1993, blood samples were collected to analyse the population genetic structure of the supposedly isolated sub-populations, using band-sharing coefficients from multilocus DNA-fingerprinting. Band-sharing analyses showed that all four subgroups studied showed an increased level of band-sharing compared to open populations of various other songbirds. The between-subgroup band-sharing is lower than the within-sub-group band-sharing suggesting a rather high degree of isolation between the subgroups tested. The apparently low dispersal activity together with the patchy habitat occupation in the different subgroups, are important factors to watch when considering conservation measures for the species. 相似文献