The influence of flood frequency and duration on microcrustacean egg bank composition in dryland river floodplain sediments

Chaki, Nipa; Reid, Michael; Nielsen, Daryl L.

doi:10.1111/fwb.13724

Cited by 4 publications

(1 citation statement)

References 42 publications

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“…We monitored the zooplankton hatching patterns across a sequence of hydration events using a common garden experiment (three similar inundation events) in the laboratory. Because temporal hatching patterns of zooplankton dormant stages are strongly linked to local habitat and regional climate characteristics associated with the hydrological regime (Brendonck, 1996;C aceres & Tessier, 2003;Chaki et al, 2021;Nielsen et al, 2013), the natural short-duration and multiannual floods in wetlands of the dry tropics (Junk et al, 2014) is likely to have determined the composition of egg banks in dry sediments. We hypothesized that such environmental conditions should (1) favor hatching strategies of zooplankton dormant stages corresponding to the predictions of bet-hedging theory (i.e., the spread of hatchlings over sequential hydrations) (Pinceel et al, 2017(Pinceel et al, , 2021.…”

Section: Introductionmentioning

confidence: 99%

Bet‐hedgers commit to the hedge: Zooplankton in ephemeral semiarid wetlands of tropical Brazil that widely spread risk

Pires

Vendramin

Medeiros

et al. 2023

Ecology

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Bet‐hedging is an ecological risk‐aversion strategy in which a population does not commit all its effort toward a single reproductive event or specific environmental condition, and instead spreads the risk to include multiple reproductive events or conditions. For aquatic invertebrates in dry wetlands, this often takes the form of some propagules hatching in the first available flood, while remaining propagules hatch in subsequent floods (the “hedge”); this better ensures that a subset of propagules will hatch in a flood of sufficient duration to successfully complete development. Harsh environmental conditions are believed to promote an increased reliance on bet‐hedging. Bet‐hedging studies have typically been restricted to single sites or single populations. Community‐level assessments may provide more robust support for the range of hatching strategies that exist in nature. Here, we tested whether freshwater zooplankton assemblages inhabiting ephemeral and unpredictable wetlands of a semiarid zone of tropical Brazil employ hatching strategies suggestive of bet‐hedging; few efforts have addressed bet‐hedging in the tropics where the unique conditions may influence the strategy. We collected dry sediments from six ephemeral wetlands, and flooded them across a sequence of three hydrations under similar laboratory conditions to assess whether hatching patterns conform to some of the predictions of the bet‐hedging theory. We found that taxa showing hatching patterns akin to bet‐hedging associated with delayed hatching numerically dominated the assemblages that emerged from dry sediments, although there was large heterogeneity in the hatching rate among sites and across taxa. While some populations distributed their hatching across all three floods and committed most of their hatching fraction to the first hydration, others committed as much or more effort to the second hydration (the “hedge”) or the third hydration (another substantial “hedge”). Thus, in the harsh study wetlands, hatching patterns akin to bet‐hedging associated with delayed hatching were common and occurred at multiple temporal scales. Our community assessment found that a commitment to the “hedge” was greater than the current theory would predict. Our findings have broader implications; bet‐hedger taxa seem especially well equipped to tolerate stress if conditions become harsher as environments change.

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Section: Introductionmentioning

confidence: 99%

Bet‐hedgers commit to the hedge: Zooplankton in ephemeral semiarid wetlands of tropical Brazil that widely spread risk

Pires

Vendramin

Medeiros

et al. 2023

Ecology

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Species' traits and taxonomic distance can predict the hatching phenology of ostracod (Crustacea) resting eggs from tropical floodplain lakes

et al. 2021

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Freshwater ostracods are commonly found in temporary ponds and lakes, surviving drought periods by producing resting eggs. We investigated the hatching phenology of ostracod resting eggs from the sediments of temporary floodplain lakes, considering both the taxonomic distance between species and their functional traits, such as carapace size (length and height) and shape, valve ornamentation, and reproductive mode. In addition, we tested the hypotheses: (1) that the hatching time is more similar between congeneric ostracod species than between noncongeneric species; (2) that differences in hatching time between congeneric species are often related to differences in functional traits; (3) that both species composition and functional traits composition of hatchlings change over the incubation time, but with a reduction in the variability over time. The experiment was conducted for 98 days in the laboratory, and the microcosms were monitored weekly. The first hatching of an ostracod was recorded during the second week of incubation after hydration of the sediments. A total of 12 ostracod species hatched, belonging to the families Cyprididae and Candonidae. The above three hypotheses were corroborated. The time between inundation and first hatching was mostly similar for congeneric species in the genus Chlamydotheca, but was different between some species of Strandesia, which might be owing to differences in functional traits. The species composition and functional trait composition of the hatched ostracods were significantly different over the 14 weeks of incubation due to the different hatching phenology of different species. Furthermore, our results show that both taxonomic distance and functional traits can influence the hatching time of ostracod resting eggs from temporary floodplain lakes. Thus, future studies addressing the hatching phenology of ostracod resting eggs (and resting stages from other invertebrates) should also emphasize the use of functional traits.

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Do temperature and water depth influence microcrustacean hatching responses from floodplain wetland sediments?

Chaki

Reid

Nielsen

2021

Mar. Freshwater Res.

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Microcrustacea in ephemeral wetlands produce dormant eggs to escape prolonged dry conditions. These eggs can hatch on inundation, although in most cases not all eggs hatch during a single wetting event. Incomplete hatching can reflect bet-hedging strategies, but also the presence or absence of environmental cues that stimulate hatching. This study examines the effects of environmental cues likely to change for wetlands in the future, namely, temperature and water depth. Surface sediments collected from dry anabranches of the Macintyre River floodplain (eastern Australia) were inundated under two temperature regimes (warm and cool) in microcosms of two depths (shallow and deep). Hatched microcrustacea were sampled for 6 weeks. The abundance and assemblage composition of microcrustacea varied by temperature but not by depth. Although the total abundance was greater under warm conditions, the effect of temperature diminished over time. Temperature also had a greater effect on non-ostracods, with 144% more non-ostracods being hatched under warm than under cool conditions. Thus, changes to temperature during inundation periods arising from global climate change or river regulation are likely to influence the abundance and composition of microcrustacean assemblages, especially among non-ostracods, which will influence food availability for larval and juvenile native fish and, hence, recruitment.

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The influence of flood frequency and duration on microcrustacean egg bank composition in dryland river floodplain sediments

Cited by 4 publications

References 42 publications

Bet‐hedgers commit to the hedge: Zooplankton in ephemeral semiarid wetlands of tropical Brazil that widely spread risk

Bet‐hedgers commit to the hedge: Zooplankton in ephemeral semiarid wetlands of tropical Brazil that widely spread risk

Species' traits and taxonomic distance can predict the hatching phenology of ostracod (Crustacea) resting eggs from tropical floodplain lakes

Do temperature and water depth influence microcrustacean hatching responses from floodplain wetland sediments?

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