Combined impacts of warming and salinisation on trophic interactions and mortality of a specialist ephemeral wetland predator

Cuthbert, Ross N.; Weyl, Olaf L. F.; Wasserman, Ryan J.; Dick, Jaimie T. A.; Froneman, P. William; Dalu, Tatenda

doi:10.1111/fwb.13353

Cited by 20 publications

(6 citation statements)

References 65 publications

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“…Wetlands have myriad functional roles in socioecological systems; for example, wetlands in river catchments directly and indirectly contribute to biodiversity, drought relief, flood attenuation, provision of fodder, water storage and purification, and soil protection [7,8]. Despite the essential ecosystem services that wetlands provide, recent studies [2,[9][10][11] have emphasized that wetlands are amongst the most threatened systems, as they are often located in highly productive land space where anthropogenic drainage and pollution is driven by demands for agricultural and urban developments.…”

Section: Introductionmentioning

confidence: 99%

Metal Distribution and Sediment Quality Variation across Sediment Depths of a Subtropical Ramsar Declared Wetland

Dalu

Tshivhase

Cuthbert

et al. 2020

Water

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The study of wetlands is particularly important as these systems act as natural water purifiers and thus can act as sinks for contaminated particles. Wetland sediments are important as they provide an indication of potential contamination across temporal and spatial scales. The current study aimed to investigate the distributions of selected metals and nutrients in different sites in relation to sediment depth, and identify relationships among sediment metals. Significant differences in nutrient (i.e., N, P) and metal (i.e., K, Mg, Na, Fe, Cu, B) concentrations were found across study sites, whereas nutrients (i.e., N, P) and metals (i.e., Ca, Mg, Fe, Cu, Zn) were significantly different with sediment depths. When compared against Canadian sediment standards, most of the assessed metals were within the “no effect” level across the different sites and depths. The K, Ca, and Mg concentration showed extreme contamination across all sites and depths. The enrichment factor values for K, Ca, and Mg showed extremely high enrichment levels for all sites and sediment depths. The Na, Mn, Fe, Cu, Zn, and B concentration showed mostly background enrichment levels. All sediments across the different sites and sediment depths indicated deterioration of sediment quality. Pearson correlations suggest that most metals might have originated in a similar source as that of Mn and B, owing to a lack of significant differences. These results provide baseline information for the general management of the Nylsvley Wetland in relation to sediment metal pollution. The specific sources of metal contaminants also require further elucidation to further inform management efforts.

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Section: Introductionmentioning

confidence: 99%

Metal Distribution and Sediment Quality Variation across Sediment Depths of a Subtropical Ramsar Declared Wetland

Dalu

Tshivhase

Cuthbert

et al. 2020

Water

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“…Existing knowledge on toxicological and individual responses of fish, amphibians, and birds [17,86,103] must be applied to assess salinity-triggered changes in their trophic interactions (e.g., changes in predation rates). At community level, top-down effects (e.g., loss of keystone species due to salinisation [104]) and trophic cascades are receiving increasing attention [79,105]. However, a complete understanding of these interactions as well as more trophic or energetic approaches (e.g., energy fluxes across the food web [40,79]) needs further attention.…”

Section: Open Accessmentioning

confidence: 99%

Freshwater salinisation: a research agenda for a saltier world

Cunillera‐Montcusí

Beklioğlu

Cañedo‐Argüelles

et al. 2022

Trends in Ecology & Evolution

110

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“…In particular, emergent effects associated with changeable densities of antagonists may reduce or enhance the efficacy of natural enemy populations in controlling pest populations . Multiple predator interactions may manifest in three broad forms: (i) additively, where predators interact independently with their prey irrespective of predator density, (ii) antagonistically, where predator–predator interference reduces impact and thus alleviates prey risk, and (iii) synergistically, where multiple predator effects enhance predatory impacts and therefore increase prey risk . In addition, habitat complexity is also known to alter predatory interactions .…”

Section: Introductionmentioning

confidence: 99%

“…Conversely, Type III FRs can impart refuge to low density prey populations and may thus allow for population persistence . FR quantifications, importantly, also allow for the explicit assessment of context‐dependency effects on interaction strengths . In particular, recent studies have applied FRs to quantify the prey density‐dependences of emergent multiple predator effects, and others have demonstrated the effects of habitat complexity for interaction strength .…”

Section: Introductionmentioning

confidence: 99%

“…In particular, recent studies have applied FRs to quantify the prey density‐dependences of emergent multiple predator effects, and others have demonstrated the effects of habitat complexity for interaction strength . In addition, studies have examined the interactive complexities of multiple environmental factors on predator–prey dynamics, which often combine non‐linearly …”

Section: Introductionmentioning

confidence: 99%

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Predator density modifies mosquito regulation in increasingly complex environments

Buxton

Cuthbert

Dalu

et al. 2020

Pest Management Science

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BACKGROUND: Predation plays a pivotal role in the composition and functioning of ecosystems. Both habitat complexity and predator density are important contexts which may determine the strength of trophic and non-trophic interactions. In aquatic systems, the efficacy of natural enemies in regulating vector pest species could be modified by such context dependencies. Here, we use a functional response (FR) approach to experimentally quantify conspecific multiple predator effects across a habitat complexity gradient of two notonectids, Anisops sardea and Enithares chinai, towards larvae of the vector mosquito Culex pipiens pipiens.RESULTS: E. chinai exhibited significantly greater consumption rates than A. sardea across habitat complexities, both as individuals and conspecific pairs. Each predator type displayed Type II FRs across experimental treatments, with synergistic multiple predator effects (i.e. prey risk enhancement) displayed in the absence of habitat complexity. Effects of increasing habitat complexity modified multiple predator effects differentially between species given behavioral differences, with habitat complexity causing significant antagonism (i.e. prey risk reduction) with multiple A. sardea compared to E. chinai.CONCLUSION: Habitat complexity effects on multiple predator interactions can manifest differently at the species level, suggesting emergent effects which complicate predictions of natural enemy impact in heterogenous environments. Considerations of density, diversity and habitat effects on efficacies of natural enemies should thus be considered by pest management practitioners to better explain biocontrol efficacies in increasingly diverse environments.

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Combined impacts of warming and salinisation on trophic interactions and mortality of a specialist ephemeral wetland predator

Cited by 20 publications

References 65 publications

Metal Distribution and Sediment Quality Variation across Sediment Depths of a Subtropical Ramsar Declared Wetland

Metal Distribution and Sediment Quality Variation across Sediment Depths of a Subtropical Ramsar Declared Wetland

Freshwater salinisation: a research agenda for a saltier world

Predator density modifies mosquito regulation in increasingly complex environments

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