Biodiversity inhibits parasites: Broad evidence for the dilution effect

Civitello, David J.; Cohen, Jeremy M.; Fatima, Hiba; Halstead, Neal T.; Liriano, Josue; McMahon, Taegan A.; Ortega, C.; Sauer, Erin L.; Sehgal, Tanya; Young, S. M. M.; Rohr, Jason R.

doi:10.1073/pnas.1506279112

Cited by 529 publications

(527 citation statements)

References 34 publications

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“…The third pathogen, the chytrid fungus Batrachochytrium dendrobatidis (Bd), is considered one of the deadliest organisms on the planet because of its association with hundreds of amphibian extinctions in the last half century (21,22). We chose to model the spatial factors affecting these pathogens because (i) spatially explicit datasets of their distributions were available (but were not available for other pathogens or other organisms in general; see Methods); (ii) they span a diversity of taxa (a virus, bacterium, and fungus) and transmission modes (WNV and Lyme are mosquito-and tick-borne, respectively, and Bd is a directly transmitted, water-borne pathogen), and infect various types of hosts (endothermic and ectothermic), increasing the generality of our findings; (iii) they are widespread generalists throughout the United States, providing a spatial extent great enough to conduct largescale analyses; (iv) their abundances or prevalences appear to be partially controlled by a common biotic factor, the richness of potential hosts (19,21,23,24), and by common abiotic factors, including climate and vegetation (20,25,26); and, finally, (v) understanding emerging diseases is of critical importance to biodiversity conservation and human health. Our goal was not to develop and put forth the best possible model to explain the spread of these diseases but rather to test whether spatial scale influences which types of ecological processes are important.…”

Section: Significancementioning

confidence: 80%

“…Because the abundance of all three pathogens has been shown previously to be affected by a common biotic factor, the richness of potential hosts (defined as the richness of all species that receive either successful or failed transmission attempts from a generalist pathogen or vector) (19,21,23,24), we chose to use this factor in our models to represent the subset of biotic interactions that drive the processes causing dilution or amplification effects (5). We used total amphibian richness to predict the spread of Bd, avian richness for WNV, and mammalian richness for Lyme disease (we also initially tested the richness of other taxa for B. burgdorferi; see Methods).…”

Section: Significancementioning

confidence: 99%

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Spatial scale modulates the strength of ecological processes driving disease distributions

Cohen

Civitello

Brace

et al. 2016

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

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139

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Humans are altering the distribution of species by changing the climate and disrupting biotic interactions and dispersal. A fundamental hypothesis in spatial ecology suggests that these effects are scale dependent; biotic interactions should shape distributions at local scales, whereas climate should dominate at regional scales. If so, common single-scale analyses might misestimate the impacts of anthropogenic modifications on biodiversity and the environment. However, large-scale datasets necessary to test these hypotheses have not been available until recently. Here we conduct a crosscontinental, cross-scale (almost five orders of magnitude) analysis of the influence of biotic and abiotic processes and human population density on the distribution of three emerging pathogens: the amphibian chytrid fungus implicated in worldwide amphibian declines and West Nile virus and the bacterium that causes Lyme disease (Borrelia burgdorferi), which are responsible for ongoing human health crises. In all three systems, we show that biotic factors were significant predictors of pathogen distributions in multiple regression models only at local scales (∼10 2 -10 3 km 2 ), whereas climate and human population density always were significant only at relatively larger, regional scales (usually >10 4 km 2 ). Spatial autocorrelation analyses revealed that biotic factors were more variable at smaller scales, whereas climatic factors were more variable at larger scales, as is consistent with the prediction that factors should be important at the scales at which they vary the most. Finally, no single scale could detect the importance of all three categories of processes. These results highlight that common single-scale analyses can misrepresent the true impact of anthropogenic modifications on biodiversity and the environment.ecology | dilution effect | chytridiomycosis | West Nile virus | Lyme disease

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Section: Significancementioning

confidence: 80%

Section: Significancementioning

confidence: 99%

Spatial scale modulates the strength of ecological processes driving disease distributions

Cohen

Civitello

Brace

et al. 2016

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

Self Cite

139

126

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“…These biodiversity-ecosystem functioning (BEF) studies have revealed generally positive effects of species richness on primary productivity and also shed light on the mechanisms that promote productivity under these conditions (3). Niche differentiation among species can enhance community-level productivity through complementary resource use, decreased competition (3), and reduced density-dependent herbivore and pathogen pressure (4). Facilitation can increase community-level productivity via positive effects of one species on another.…”

mentioning

confidence: 99%

Biodiversity promotes primary productivity and growing season lengthening at the landscape scale

Oehri

Schmid

Schaepman‐Strub

et al. 2017

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

108

141

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Experiments have shown positive biodiversity-ecosystem functioning (BEF) relationships in small plots with model communities established from species pools typically comprising few dozen species. Whether patterns found can be extrapolated to complex, nonexperimental, real-world landscapes that provide ecosystem services to humans remains unclear. Here, we combine species inventories from a large-scale network of 447 1-km 2 plots with remotely sensed indices of primary productivity (years 2000-2015). We show that landscape-scale productivity and its temporal stability increase with the diversity of plants and other taxa. Effects of biodiversity indicators on productivity were comparable in size to effects of other important drivers related to climate, topography, and land cover. These effects occurred in plots that integrated different ecosystem types (i.e., metaecosystems) and were consistent over vast environmental and altitudinal gradients. The BEF relations we report are as strong or even exceed the ones found in small-scale experiments, despite different community assembly processes and a species pool comprising nearly 2,000 vascular plant species. Growing season length increased progressively over the observation period, and this shift was accelerated in more diverse plots, suggesting that a large species pool is important for adaption to climate change. Our study further implies that abiotic global-change drivers may mediate ecosystem functioning through biodiversity changes.ecosystem function and services | EVI and NDVI land surface phenology | large spatial scale | nonexperimental, real-world ecosystems | plant, bird, and butterfly species richness

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“…However, systems might not always meet these conditions, which has sparked an intense debate over the generality of the dilution effect of host species richness 158,270,271 . A recent meta-analysis concluded that the majority of studies showed a decrease of pathogen prevalence with increasing species richness 251 . Of course this is good news for conservationists trying to convince governments to preserve biodiversity.…”

Section: The Idiosyncratic Link Between Biodiversity and Tick-borne Dmentioning

confidence: 99%

“…For tick-borne pathogens vectored by a generalist species, the main conditions for a dilution effect to occur are that 1) pathogen prevalence increases with the density of host species with the highest reservoir competence and that 2) the density of these host species decreases with host species richness 3 . It has been shown that a dilution effect of host species richness occurs in many disease systems 251 , including the Lyme borreliosis system in North America, where a dilution effect of host species richness was found both at a small 230 and a large spatial scale 248 . However, the mechanisms underlying any negative correlation with host species richness remain relatively unstudied 218 .…”

Section: Introductionmentioning

confidence: 99%

The wild life of tick-borne pathogens

Hofmeester

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Biodiversity inhibits parasites: Broad evidence for the dilution effect

Cited by 529 publications

References 34 publications

Spatial scale modulates the strength of ecological processes driving disease distributions

Spatial scale modulates the strength of ecological processes driving disease distributions

Biodiversity promotes primary productivity and growing season lengthening at the landscape scale

The wild life of tick-borne pathogens

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