Anomalous droughts, not invasion, decrease persistence of native fishes in a desert river

Ruhí, Albert; Holmes, Elizabeth E.; Rinne, John N.; Sabo, John L.

doi:10.1111/gcb.12780

Cited by 53 publications

(55 citation statements)

References 82 publications

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“…Baselga () showed that subtracting the Simpson dissimilarity index ( B sim) , representing pure spatial turnover, from the Sorensen dissimilarity index ( B sor) , representing both spatial turnover and nestedness, provided a measure of nestedness ( B nes ), allowing beta diversity components to be partitioned into “pure spatial turnover” and “nestedness.” To assess spatial as well as temporal variation in local fish communities for the eight pairs of spatially consecutive sites on Piney Creek in each survey, we followed Baselga (), and Ruhi et al. () to assess total beta diversity and partition the beta components, and then tested for similarity in patterns of beta diversity and beta components across time.…”

Section: Methodsmentioning

confidence: 99%

Dynamics of an upland stream fish community over 40 years: trajectories and support for the loose equilibrium concept

Matthews

Marsh‐Matthews

2016

Ecology

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Previous theoretical models and empirical studies suggested that communities can exist in a “stochastic” or “loose” equilibrium, diverging transiently but eventually returning toward earlier or average structure, in what we call here the “loose equilibrium concept” (LEC). We sampled the fish communities at 12 local stream reaches spaced broadly throughout a relatively undisturbed watershed in the Ozark Mountains of northern Arkansas, USA, in 11 surveys from 1972 to 2012 at a scale of decades, and at a subset of five of these local sites in a total of 16 surveys, allowing tests of the LEC at different spatial and temporal scales. Multivariate analyses of the dynamics of communities over the 40‐year period provided support for the LEC at both “global” and “local” scales within the watershed. At the broadest spatial scale, core species numerically dominated the community, and most common species remained so across all decades. In spite of two extraordinary floods, and interannual variation in abundance of some species, the 12‐site and five‐site global communities and eight of 12 local communities repeatedly returned toward average positions in multivariate space. Trajectories of the global and local fish communities varied relative to model hypothetical trajectories that were based on gradual vs. saltatory changes, and prevalence of returns toward average community structure. Beta diversity among sites was variable across time, but beta partitioning consistently showed that pure spatial turnover dominated over nestedness, because many common species were consistently distributed either upstream or downstream. This study suggests that vertebrate communities in relatively undisturbed environments may display dynamics consistent with the LEC. The LEC, combined with quantification of community trajectory patterns, can help to clarify whether systems are moving about within ranges of conditions that reflect expected noise, or, conversely, have moved so far out of previous bounds, as a result of climate change or human intervention, that they are permanently changed or “novel.”

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Section: Methodsmentioning

confidence: 99%

Dynamics of an upland stream fish community over 40 years: trajectories and support for the loose equilibrium concept

Matthews

Marsh‐Matthews

2016

Ecology

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“…Precipitation variability is also important for defining human-natural systems: differences in annual precipitation and seasonal variability from one year to the next characterize the capacity to sustain ecosystems and associated provisioning, regulating, and supporting services across the years and in the long term [6]. Further, changes in these patterns can cause fundamental shifts in the capacity for ecosystems to re-organize to preexisting steady states (resilience) [9], and can also influence water resource planning for human development [10].…”

Section: Introductionmentioning

confidence: 99%

Characterizing Precipitation Variability and Trends in the World’s Mediterranean-Climate Areas

Deitch

Sapundjieff

Feirer³

2017

Water

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Abstract:The Mediterranean climate is principally characterized by warm, dry summers and cool, wet winters. However, there are large variations in precipitation dynamics in regions with this climate type. We examined the variability of precipitation within and among Mediterranean-climate areas, and classified the Mediterranean climate as wet, moderate, or dry based on annual precipitation; and strongly, moderately, or weakly seasonal based on percentage of precipitation during summer. Mediterranean biomes are mostly dry (<700 mm annually) but some areas are wet (>1300 mm annually); and many areas are weakly seasonal (>12% of annual precipitation during summer). We also used NOAA NCDC climate records to characterize interannual variability of annual and dry-season precipitation, as well as trends in annual, winter, and dry-season precipitation for 337 sites that met the data quality criteria from 1975 to 2015. Most significantly, sites in many Mediterranean-climate regions show downward trends in annual precipitation (southern California, Spain, Australia, Chile, and Northern Italy); and most of North America, the Mediterranean basin, and Chile showed downward trends in summer precipitation. Variations in annual and summer precipitation likely contribute to the high biodiversity and endemism characteristic of Mediterranean-climate biomes; the data indicate trends toward harsher conditions over the past 40 years.

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“…Location of our study sites in the Huachuca Mountains of southeastern Arizona could dominate numerically in some samples and be absent from others depending on trap locations, we also identified taxa with high dissimilarity: standard deviation ratios followingRuhí, Holmes, Rinne, and Sabo (2015). Finally, we investigated the distribution of species unique to a single flow category among the three categories, both with and without singletons.…”

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confidence: 99%

Dissimilarity in the riparian arthropod communities along surface water permanence gradients in aridland streams

Moody

Sabo

2017

Ecohydrology

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The riparian areas around streams and rivers are often thought of as distinct habitats with unique species. Research on riparian zones has traditionally focused on those bordering perennial waterways; thus, we know much less about riparian species supported by intermittent and ephemeral streams. As nonperennial streams make up the vast majority of stream channels in many landscapes, we aimed to investigate how surface water permanence affects riparian communities.We focus on riparian ground-dwelling arthropods, a group that often depends on resources derived from surface and/or ground water. We sampled riparian ground-dwelling arthropods along surface water permanence gradients in 3 replicated stream channels in southeastern Arizona to assess patterns in diversity and community similarity. We found that alpha diversity did not differ between reach types, but high species turnover led to significant community dissimilarity among perennial, intermittent, and ephemeral riparian zones. Further, intermittent and ephemeral riparian zones harbored more unique species not found at other reach types than did perennial reaches. These patterns were strongest during the dry season, when intermittent and ephemeral reaches are most likely to lack surface water. Our results suggest not only that the riparian zones of nonperennial streams host equivalent arthropod diversity to their perennial counterparts but also that these communities have little overlap with those at perennial reaches.As a result, intermittent and ephemeral stream channels should receive greater consideration than they currently do in efforts to conserve regional biodiversity.

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Anomalous droughts, not invasion, decrease persistence of native fishes in a desert river

Cited by 53 publications

References 82 publications

Dynamics of an upland stream fish community over 40 years: trajectories and support for the loose equilibrium concept

Dynamics of an upland stream fish community over 40 years: trajectories and support for the loose equilibrium concept

Characterizing Precipitation Variability and Trends in the World’s Mediterranean-Climate Areas

Dissimilarity in the riparian arthropod communities along surface water permanence gradients in aridland streams

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