Loss of speciation rate will impoverish future diversity

Rosenzweig, Michael L.

doi:10.1073/pnas.101092798

Cited by 140 publications

(136 citation statements)

References 49 publications

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“…These antagonistic effects cause the model's biodiversity to peak at a medium environmental quality. Also this prediction is in accordance with observed productivity-diversity relations (Rosenzweig 1995).…”

Section: Determinants Of Evolving Biodiversitysupporting

confidence: 78%

“…Species diversity tends to increase with the size of the area over which diversity is sampled, a characteristic relationship that is often described by power laws (Rosenzweig 1995). It is therefore noteworthy that the speciation mechanism highlighted by Dieckmann (2003, 2004) also lets the emerging number of species increase with the total area covered by the environmental gradient.…”

mentioning

confidence: 97%

“…Reduced speciation rates. Biogeography theory suggests that speciation rates correlate with area (e.g., Rosenzweig 1995Rosenzweig , 2001Losos 1996;Losos and Schluter 2000). Therefore even the largest protected areas and nature reserves may prove far too small to support the speciation of large vertebrates.…”

Section: · Genetic and Ecological Bases Of Adaptive Responsesmentioning

confidence: 99%

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Adaptive Dynamics and Evolving Biodiversity

Dieckmann

Ferrière

2004

Evolutionary Conservation Biology

111

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Section: Determinants Of Evolving Biodiversitysupporting

confidence: 78%

mentioning

confidence: 97%

Section: · Genetic and Ecological Bases Of Adaptive Responsesmentioning

confidence: 99%

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Adaptive Dynamics and Evolving Biodiversity

Dieckmann

Ferrière

2004

Evolutionary Conservation Biology

111

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“…The trajectory of future change is toward conditions-both climatic and otherwise-that species have not experienced in their existence (43). Ongoing habitat degradation, population loss, and human population growth (44,45) may signify an altered continental state such that the North American species pool will contain fewer species overall (45,46), and both environmental change and species loss may occur at rates too fast for species interactions, dispersal, and competitive release to compensate (47). Our results also indicate that perhaps the best and most tractable predictor of mammal response to environmental change lies at the genus level (as a convenient clade for representing deeper evolutionary units).…”

Section: Discussionmentioning

confidence: 99%

Niche conservatism above the species level

Hadly

Spaeth

2009

Proc. Natl. Acad. Sci. U.S.A.

103

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Traits that enable species to persist in ecological environments are often maintained over time, a phenomenon known as niche conservatism. Here we argue that ecological niches function at levels above species, notably at the level of genus for mammals, and that niche conservatism is also evident above the species level. Using the proxy of geographic range size, we explore changes in the realized niche of North American mammalian genera and families across the major climatic transition represented by the last glacial-interglacial transition. We calculate the mean and variance of range size for extant mammalian genera and families, rank them by range size, and estimate the change in range size and rank during the late Pleistocene and late Holocene. We demonstrate that range size at the genus and family levels was surprisingly constant over this period despite range shifts and extinctions of species within the clades. We suggest that underlying controls on niche conservatism may be different at these higher taxonomic levels than at the species level. Niche conservatism at higher levels seems primarily controlled by intrinsic life history traits, whereas niche conservatism at the species level may reflect underlying environmental controls. These results highlight the critical importance of conserving the biodiversity of mammals at the genus level and of maintaining an adequate species pool within genera.climate change ͉ extinction ͉ geographic range size ͉ mammals ͉ Pleistocene T he distributions of mammals are labile over ecological time and have been impacted by human activities, including climatic warming over the past century (1-6). Although humans are altering the distribution of Earth's species in our lifetimes (7), we have little information about how extant species and higher taxa altered their distributions in the past. Here we examine the fossil record for variation in the distribution of mammalian ranges at the level of genus and families in response to climatic change over an evolutionary and ecological relevant time scale (tens of thousands of years). The goal is to understand whether niche conservatism is evident at taxonomic levels higher than species and, if so, what actually underlies the conservation of a niche through long time periods.Nearly all previous studies of niche conservatism have been at the level of species.

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“…Error bars show 95% confidence intervals. matrix attributes should greatly increase our ability to predict and enhance species' persistence probabilities in fragmented systems (33)(34)(35)(36). Identification of key features that determine whether a species will occupy an area should also improve both occupancy modeling and habitat restoration efforts.…”

Section: Table 1 Numbers Of Species Included In the Metaanalysismentioning

confidence: 99%

Effect of habitat area and isolation on fragmented animal populations

Prugh

Hodges

Sinclair

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

635

485

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Habitat destruction has driven many once-contiguous animal populations into remnant patches of varying size and isolation. The underlying framework for the conservation of fragmented populations is founded on the principles of island biogeography, wherein the probability of species occurrence in habitat patches varies as a function of patch size and isolation. Despite decades of research, the general importance of patch area and isolation as predictors of species occupancy in fragmented terrestrial systems remains unknown because of a lack of quantitative synthesis. Here, we compile occupancy data from 1,015 bird, mammal, reptile, amphibian, and invertebrate population networks on 6 continents and show that patch area and isolation are surprisingly poor predictors of occupancy for most species. We examine factors such as improper scaling and biases in species representation as explanations and find that the type of land cover separating patches most strongly affects the sensitivity of species to patch area and isolation. Our results indicate that patch area and isolation are indeed important factors affecting the occupancy of many species, but properties of the intervening matrix should not be ignored. Improving matrix quality may lead to higher conservation returns than manipulating the size and configuration of remnant patches for many of the species that persist in the aftermath of habitat destruction.incidence function ͉ island biogeography ͉ logistic regression ͉ metaanalysis ͉ occupancy H abitat loss and fragmentation are major threats to terrestrial biodiversity (1). Globally, Ϸ40% of land has been converted for agricultural use (2), and regions as diverse as the eastern United States, the Philippines, and Ghana have lost Ͼ90% of their natural habitat (3, 4). Conservation theory and practice are founded on the principle that large habitat patches have more species than small ones and connected patches have more species than isolated ones (5). Although few would dispute this basic premise, we still do not know the general value of patch area and isolation as predictors of species occupancy in fragmented terrestrial systems. Despite hundreds of patch occupancy studies over Ͼ4 decades, there has been no quantitative synthesis of these findings. Several syntheses have examined species-area and diversity relationships (6, 7), but the species occupancy patterns that underlie diversity patterns in fragmented landscapes have been overlooked (8). How important is patch isolation relative to patch size in determining where species occur, and how consistent are these effects across diverse taxonomic groups? These are foundational, yet unanswered, questions for ecology and conservation biology.We synthesized patch occupancy data from 89 studies of terrestrial fauna on 6 continents (Table S1) to determine how patch area and isolation affect species' occurrence patterns. Collectively, these studies recorded the occurrence of 785 animal species (Table 1) in 1,015 population networks surveyed in 12,370 discrete habitat p...

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Loss of speciation rate will impoverish future diversity

Cited by 140 publications

References 49 publications

Adaptive Dynamics and Evolving Biodiversity

Adaptive Dynamics and Evolving Biodiversity

Niche conservatism above the species level

Effect of habitat area and isolation on fragmented animal populations

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