Quality and quantity of leaf litter: Both are important for feeding preferences and growth of an aquatic shredder

Arias-Real, Rebeca; Menéndez, M.; Abril, Meritxell; Oliva, Francesc; Muñoz, Isabel

doi:10.1371/journal.pone.0208272

Cited by 20 publications

(16 citation statements)

References 60 publications

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“…The results of our study show how the increase in the number of non-flow days that is related to lower OM decomposition in the surface zone could be due to the decrease in fungal biomass (Mustonen et al, 2016). As previous studies have pointed out, flow disruption constrains and retards fungal growth and colonization because sporulation requires flowing water (Arias-Real et al, 2018;Duarte et al, 2017;Gessner et al, 2010). Additionally, this reduction in fungal biomass and activity coupled to changes in the initial chemical composition of OM (leaf litter and woody debris), affects the palatability of OM (Suberkropp et al, 1983).…”

Section: Effects Of Hydrology and Zone On Om Decomposition And Fungal Biomasssupporting

confidence: 52%

“…Microbes (fungi and bacteria) and invertebrates are the most important organisms that contribute to OM decomposition, but their activities may vary with local environmental conditions (Gessner et al, 2010). In freshwaters, fungi are the first colonisers and the main microbial decomposers during the early stages of decomposition, constituting an essential trophic link between OM and invertebrate consumers (Arias-Real et al, 2018;Gessner and Chauvet, 1994;Kuehn, 2016). Aquatic OM decomposition depends on environmental factors that affect biological activity and/or physical degradation (Krauss et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

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Subsurface zones in intermittent streams are hotspots of microbial decomposition during the non-flow period

Arias-Real

Muñoz

Gutiérrez‐Cánovas

et al. 2020

Science of The Total Environment

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Section: Effects Of Hydrology and Zone On Om Decomposition And Fungal Biomasssupporting

confidence: 52%

Section: Introductionmentioning

confidence: 99%

Subsurface zones in intermittent streams are hotspots of microbial decomposition during the non-flow period

Arias-Real

Muñoz

Gutiérrez‐Cánovas

et al. 2020

Science of The Total Environment

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“…larvae selected softer leaf litter proportions in detriment to less palatable litter for feeding. Although I. laurina has higher nutritional content than M. guianensis, the processing of softer leaf litter appears to be more cost benefit for Phylloicus larvae metabolism (Arias-Real, Menéndez, Abril, Oliva, & Muñoz, 2018), corroborating our second hypothesis. We recorded a higher consumption in treatment with lower quantity compared with higher quantity just in Cerrado system.…”

Section: Discussionsupporting

confidence: 82%

Leaf litter quality drives the feeding by invertebrate shredders in tropical streams

Sena

Júnior

Martins

et al. 2020

Ecology and Evolution

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Amazon and Cerrado‐forested streams show natural fluctuations in leaf litter quantity along the time and space, suggesting a change on litter quality input. These natural fluctuations of leaf litter have repercussion on the organic matter cycling and consequently effects on leaf decomposition in forested streams. The effects of the quantity of leaf litter with contrasting traits on consumption by larvae of shredder insects from biomes with different organic matter dynamics have still been an understudied question. The Trichoptera Phylloicus spp. is a typical shredder in tropical headwater streams and keep an important role in leaf litter decomposition. Here, we assessed the consumption by shredder Phylloicus spp., from Amazonia and Cerrado biomes, on higher (Maprounea guianensis) and lower quality leaves (Inga laurina) in different proportions and quantities. Experiments were performed concomitantly in microcosms approaches, simulating Cerrado and Amazonian streams. Higher leaf consumption occurred in Cerrado microcosms. Litter quantity influenced negatively leaf consumption by shredders in Cerrado, in opposition to Amazonia, where consumption was not affected by leaf quantity. In both sites, we observed higher consumption by shredders in treatment with only M. guianensis and no difference between other treatments with mixture of leaves. In treatment with litter of I. laurina, we noted the use of substrate for case building (due to the higher leaf toughness), affecting the fragmentation process. Therefore, our results indicate that leaf litter quality drives the preference of consumption by Phylloicus larvae in Cerrado and Amazonia streams.

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“…In contrast, cessation of flow completely stopped the input of suspended matter and suppressed algal and invertebrate biomass (Truchy et al., 2020), which may have reduced food availability for filter‐feeders, scrapers and predators (Bonada et al., 2007; Piano et al., 2019). Shredders did respond negatively to drought, suggesting their emigration, but only after a lag period which may reflect reduced palatability of leaves due to the drought‐driven reduction in fungal conditioning (Arias‐Real et al., 2018; Truchy et al., 2020). The stability of functional diversity may allow a rapid resumption of ecosystem functioning post‐drought, although strong reductions in certain trait abundances (e.g.…”

Section: Discussionmentioning

confidence: 99%

Stochastic processes and ecological connectivity drive stream invertebrate community responses to short‐term drought

Sarremejane

Truchy

McKie

et al. 2021

Journal of Animal Ecology

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Community responses to and recovery from disturbances depend on local (e.g. presence of refuges) and regional (connectivity to recolonization sources) factors. Droughts are becoming more frequent in boreal regions, and are likely to constitute a severe disturbance for boreal stream communities where organisms largely lack adaptations to such hydrological extremes. We conducted an experiment in 24 semi‐natural stream flumes to assess the effects of local and regional factors on the responses of benthic invertebrate communities to a short‐term drought. We manipulated flow (drought vs. constant‐flow), spatial arrangement of leaf litter patches (aggregated vs. evenly distributed) and colonization from regional species pool (enhanced vs. ambient connectivity) to test the combined effects of disturbance, resource arrangement and connectivity on the structural and functional responses of benthic invertebrate communities. We found that a drought as short as 1 week reduced invertebrate taxonomic richness and abundance, mainly through stochastic extinctions. Such changes in richness were not reflected in functional diversity. This suggests that communities were characterized by a high degree of functional redundancy, which allowed maintenance of functional diversity despite species losses. Feeding groups responded differently to drought, with organic matter decomposers responding more than scrapers and predators. Three weeks were insufficient for complete invertebrate community recovery from drought. However, recovery was greater in channels subjected to enhanced connectivity, which increased taxonomic diversity and abundance of certain taxa. Spatial configuration of resources explained the least variation in our response variables, having a significant effect only on invertebrate abundance and evenness (both sampling occasions) and taxonomic richness (end of recovery period). Even a short drought, if occurring late in the season, may not allow communities to recover before the onset of winter, thus having a potentially long‐lasting effect on stream communities. For boreal headwaters, extreme dewatering poses a novel disturbance regime that may trigger substantial and potentially irreversible changes. An improved understanding of such changes is needed to underpin adaptive management strategies in these increasingly fragmented and disturbed ecosystems.

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Quality and quantity of leaf litter: Both are important for feeding preferences and growth of an aquatic shredder

Cited by 20 publications

References 60 publications

Subsurface zones in intermittent streams are hotspots of microbial decomposition during the non-flow period

Subsurface zones in intermittent streams are hotspots of microbial decomposition during the non-flow period

Leaf litter quality drives the feeding by invertebrate shredders in tropical streams

Stochastic processes and ecological connectivity drive stream invertebrate community responses to short‐term drought

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