Benthic Community Responses to Water Removal in Tropical Mountain Streams

Gorbach, K. R.; Shoda, Megan E.; Burky, Albert J.; Benbow, M. Eric

doi:10.1002/rra.2679

Cited by 6 publications

(4 citation statements)

References 45 publications

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“…Indeed, global warming is producing a raise in temperature regimes, a reduction in ice cover and a shift in the spatial and seasonal amount of precipitations (Beniston, ; Middelkoop et al, ). Moreover, mountain lotic ecosystems are increasingly impacted by heavy flow regulation and water abstraction (Fenoglio, Bo, Cucco, & Malacarne, ; Gorbach, Shoda, Burky, & Benbow, ). Therefore, Alpine streams are changing from perennial to intermittent systems with possible but still largely unknown detrimental ecological effects (Leigh et al, ; Pinna et al, ).…”

Section: Introductionmentioning

confidence: 99%

Investigating the role of refuges and drift on the resilience of macroinvertebrate communities to drying conditions: An experiment in artificial streams

Doretto

Piano

Falasco

et al. 2018

River Research & Apps

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Flow intermittence occurs in an increasing number of streams, due to climate change, local land-use alteration and water abstraction. In particular, droughts represent a new element in Alpine river regimes, and their ecological consequences are poorly explored. We here used artificial streams to investigate the resilience of macroinvertebrates to drought in Alpine streams based on the presence of pools (i.e., refuges) and drift (i.e., recolonization). Three flumes were selected: 1 with permanent flowing water (Control), whereas the other 2 (Drift+Pools, Only Drift) were subjected to 2 consecutive drought-rewetting phases. Moreover, to better monitor the recolonization pattern by drift, quantitative samples of drifting taxa were collected using an additional flume (Incoming Drift). The effects of droughts on benthic invertebrate communities and their recovery were assessed in terms of composition, structure, diversity, and stability. Droughts dramatically reduced the taxa richness, especially with regard to the most sensitive and specialized macroinvertebrates, such as Ephemeroptera, Plecoptera, and Trichoptera taxa. Macroinvertebrate assemblages of the flumes that experienced drying phases were dominated by few generalist taxa and showed a higher degree of dissimilarity. Overall, no significant differences were observed in relation to the presence of pools, suggesting a limited role of this habitat in the recovery process. This finding suggests that in shallow and fast-flowing Alpine lotic ecosystems the drift rather than pool availability represents the main driver of the macroinvertebrate resilience to droughts and provides insights into factors that can facilitate the recovery of aquatic communities after droughts.

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Section: Introductionmentioning

confidence: 99%

Investigating the role of refuges and drift on the resilience of macroinvertebrate communities to drying conditions: An experiment in artificial streams

Doretto

Piano

Falasco

et al. 2018

River Research & Apps

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“…The alterations of the terrestrial environment as well the construction of barriers to migration change the local energy inputs as well the longitudinal connectivity among streams sections. These changes affect the organization and functions of the stream communities in the upper reaches of insular river drainages and are similar to effects initially outlined in the river continuum concept for larger watersheds (Vannote et al 1980;Tomanová et al 2008;Gorbach et al 2014).…”

Section: Resultsmentioning

confidence: 86%

Comparison of decapod communities across an urban-forest land use gradient in Puerto Rican streams

2015

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Urbanization influences a range of factors related to stream health, including the hydrologic regime, water quality, and riparian conditions that lead to negative effects on terrestrial and aquatic ecosystems. However, impacts on freshwater decapods from urbanization of tropical streams have not been reported. We hypothesized that changes in decapod communities in watersheds with different levels of urbanization are related to changes in physical stream habitats caused by different land uses and their effects on water discharge. The impacts of land use on the physico-chemical characteristics of streams and freshwater decapod communities were evaluated in three watersheds characterized by low, moderate and highintensities of urbanization in Puerto Rico. For the low and moderately developed urban watersheds, decapod species richness ranged from 10 to 11 species; the highly urbanized watershed only had 4 species. Macrobrachium faustinum and Xiphocaris elongata were the most ubiquitously species and were found in all watersheds. Multivariable analysis of physical characteristics and densities of the decapod families resulted in one axis that explained 80 % of the total variation among the watersheds and was correlated with stream discharge. The effect of discharge is likely a result of frequent high flows that sustain habitats with high concentrations of dissolved oxygen and low concentrations of pollutants. An increase in physicochemical parameters were observed from the LUW to the HUW. These results indicate that the decapod communities were most likely influenced by land use and environmental conditions that affected erosional aspects related to water discharge and water quality in the highly impacted watersheds.

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“…In our study, we found that both abundance and biomass of invertebrates declined up to 20× and that caddisflies and midges were the dominant invertebrate taxa that drove these changes in biomass and abundance (Table S4). In comparison, two studies conducted on Maui Island, Hawaii, found a 44%–60% decline in invertebrate abundance and biomass as a result of flow reduction by river dams, but did not attribute the decline to certain taxa (Gorbach, Shoda, Burky, & Benbow, ; McIntosh, Schmitz, Benbow, & Burky, ). In addition, a congruent study along this rainfall gradient shows that the endemic shrimp, Atyoida bisulcata , has lower average biomass in streams with low baseflow (Tingley, ).…”

Section: Discussionmentioning

confidence: 89%

“…In comparison, two studies conducted on Maui Island, Hawaii, found a 44%-60% decline in invertebrate abundance and biomass as a result of flow reduction by river dams, but did not attribute the decline to certain taxa (Gorbach, Shoda, Burky, & Benbow, 2014;McIntosh, Schmitz, Benbow, & Burky, 2008). In addition, a congruent study along this rainfall gradient shows that the endemic shrimp, Atyoida bisulcata, has lower average biomass in streams with low baseflow (Tingley, 2017).…”

Section: Dry Wetmentioning

confidence: 96%

Evaluating ecosystem effects of climate change on tropical island streams using high spatial and temporal resolution sampling regimes

Frauendorf

MacKenzie

Tingley

et al. 2019

Global Change Biology

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Climate change is expected to alter precipitation patterns worldwide, which will affect streamflow in riverine ecosystems. It is vital to understand the impacts of projected flow variations, especially in tropical regions where the effects of climate change are expected to be one of the earliest to emerge. Space‐for‐time substitutions have been successful at predicting effects of climate change in terrestrial systems by using a spatial gradient to mimic the projected temporal change. However, concerns have been raised that the spatial variability in these models might not reflect the temporal variability. We utilized a well‐constrained rainfall gradient on Hawaii Island to determine (a) how predicted decreases in flow and increases in flow variability affect stream food resources and consumers and (b) if using a high temporal (monthly, four streams) or a high spatial (annual, eight streams) resolution sampling scheme would alter the results of a space‐for‐time substitution. Declines in benthic and suspended resource quantity (10‐ to 40‐fold) and quality (shift from macrophyte to leaf litter dominated) contributed to 35‐fold decreases in macroinvertebrate biomass with predicted changes in the magnitude and variability in the flow. Invertebrate composition switched from caddisflies and damselflies to taxa with faster turnover rates (mosquitoes, copepods). Changes in resource and consumer composition patterns were stronger with high temporal resolution sampling. However, trends and ranges of results did not differ between the two sampling regimes, indicating that a suitable, well‐constrained spatial gradient is an appropriate tool for examining temporal change. Our study is the first to investigate resource to community wide effects of climate change on tropical streams on a spatial and temporal scale. We determined that predicted flow alterations would decrease stream resource and consumer quantity and quality, which can alter stream function, as well as biomass and habitat for freshwater, marine, and terrestrial consumers dependent on these resources.

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Benthic Community Responses to Water Removal in Tropical Mountain Streams

Cited by 6 publications

References 45 publications

Investigating the role of refuges and drift on the resilience of macroinvertebrate communities to drying conditions: An experiment in artificial streams

Investigating the role of refuges and drift on the resilience of macroinvertebrate communities to drying conditions: An experiment in artificial streams

Comparison of decapod communities across an urban-forest land use gradient in Puerto Rican streams

Evaluating ecosystem effects of climate change on tropical island streams using high spatial and temporal resolution sampling regimes

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