Organic matter and nutrient inputs from large wildlife influence ecosystem function in the Mara River, Africa

Subalusky, Amanda L.; Dutton, Christopher L.; Njoroge, Laban; Rosi‐Marshall, Emma J.; Post, David M.

doi:10.1002/ecy.2509

Cited by 45 publications

(47 citation statements)

References 94 publications

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“…A number of studies have examined the influence of animal excretion on ecosystem function (Atkinson et al, ). Far fewer have studied the influence of egestion, largely due to difficulties estimating it in the field, although research that has explicitly investigated egestion has shown it can play an important role in biogeochemical cycles and food webs (Joyce, Warren & Wotton, ; Halvorson et al, ; Masese et al, ; Atkinson et al, ; Stears et al, ; Subalusky et al, ). Animal tissue, primarily through gametes and carcasses, is typically high in nutrients as well as carbon, but also requires mineralization for uptake and may break down over a longer time, providing a high‐quality but potentially more complex resource than excretion and egestion (Wipfli et al, ).…”

Section: Animal Vector Characteristicsmentioning

confidence: 99%

“…carcasses) or are high in carbon (e.g. hippo faeces), mineralization of these subsidies could shift the ecosystem towards increased heterotrophy and a decline in NEP (Christenson et al, ; Marcarelli et al, ; Subalusky et al, ), although the effect of subsidies on heterotrophic communities has been studied much less frequently (Atkinson et al, ). The release of inorganic nutrients after mineralization may then stimulate either autotrophs or heterotrophs, and the resulting outcome may be mediated by other factors, including temperature, light and nutrient availability and community composition (Roberts & Howarth, ).…”

Section: The Effects Of Subsidy Characteristics On Trophic Dynamics Amentioning

confidence: 99%

“…By travelling further inland in response to lower donor ecosystem productivity, hippos spend a longer time feeding in the grasslands, which leads to less time spent in the river and therefore less excretion/egestion in the aquatic ecosystem (Subalusky et al, ). The magnitude of hippo inputs entering the recipient ecosystem appears to drive large differences in effects on ecosystem function, with low levels of input increasing primary and secondary production, and high levels decreasing production, particularly during low discharge when inputs concentrate on the river bottom (Masese et al, , ; McCauley et al, ; Dawson et al, ; Stears et al, ; Dutton et al, ; Subalusky et al, ). Hippo inputs can become so concentrated they lead to hypoxic conditions in the hippo pools and hypoxic floods and fish kills downstream, a condition Dutton et al .…”

Section: The Effects Of Subsidy Characteristics On Trophic Dynamics Amentioning

confidence: 99%

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Context dependency of animal resource subsidies

2018

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The transport of resource subsidies by animals has been documented across a range of species and ecosystems. Although many of these studies have shown that animal resource subsidies can have significant effects on nutrient cycling, ecosystem productivity, and food‐web structure, there is a great deal of variability in the occurrence and strength of these effects. Here we propose a conceptual framework for understanding the context dependency of animal resource subsidies, and for developing and testing predictions about the effects of animal subsidies over space and time. We propose a general framework, in which abiotic characteristics and animal vector characteristics from the donor ecosystem interact to determine the quantity, quality, timing, and duration (QQTD) of an animal input. The animal input is translated through the lens of recipient ecosystem characteristics, which include both abiotic and consumer characteristics, to yield the QQTD of the subsidy. The translated subsidy influences recipient ecosystem dynamics through effects on both trophic structure and ecosystem function, which may both influence the recipient ecosystem's response to further inputs and feed back to influence the donor ecosystem. We present a review of research on animal resource subsidies across ecosystem boundaries, placed within the context of this framework, and we discuss how the QQTD of resource subsidies can influence trophic structure and ecosystem function in recipient ecosystems. We explore the importance of understanding context dependency of animal resource subsidies in increasingly altered ecosystems, in which the characteristics of both animal vectors and donor and recipient ecosystems may be changing rapidly. Finally, we make recommendations for future research on animal resource subsidies, and resource subsidies in general, that will increase our understanding and predictive capacity about their ecosystem effects.

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Section: Animal Vector Characteristicsmentioning

confidence: 99%

Section: The Effects Of Subsidy Characteristics On Trophic Dynamics Amentioning

confidence: 99%

Section: The Effects Of Subsidy Characteristics On Trophic Dynamics Amentioning

confidence: 99%

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Context dependency of animal resource subsidies

2018

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“…An individual can transport 750 kg dry mass per year of carbon and nutrients from terrestrial to aquatic ecosystems via defecation and excretion (Subalusky et al, 2015). These resource subsidies can influence aquatic productivity in complex ways (Subalusky et al, 2018). Low to moderate levels of resource input may stimulate productivity and provide food resources for aquatic insects and fish (Masese et al, 2015).…”

Section: Potential Ecological Effects On the Magdalena River Basinmentioning

confidence: 99%

Potential ecological and socio-economic effects of a novel megaherbivore introduction: the hippopotamus in Colombia

Subalusky

Anderson

Jiménez

et al. 2019

Oryx

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Introduced species can have strong ecological, social and economic effects on their non-native environment. Introductions of megafaunal species are rare and may contribute to rewilding efforts, but they may also have pronounced socio-ecological effects because of their scale of influence. A recent introduction of the hippopotamus Hippopotamus amphibius into Colombia is a novel introduction of a megaherbivore onto a new continent, and raises questions about the future dynamics of the socio-ecological system into which it has been introduced. Here we synthesize current knowledge about the Colombian hippopotamus population, review the literature on the species to predict potential ecological and socio-economic effects of this introduction, and make recommendations for future study. Hippopotamuses can have high population growth rates (7–11%) and, on the current trajectory, we predict there could be 400–800 individuals in Colombia by 2050. The hippopotamus is an ecosystem engineer that can have profound effects on terrestrial and aquatic environments and could therefore affect the native biodiversity of the Magdalena River basin. Hippopotamuses are also aggressive and may pose a threat to the many inhabitants of the region who rely upon the Magdalena River for their livelihoods, although the species could provide economic benefits through tourism. Further research is needed to quantify the current and future size and distribution of this hippopotamus population and to predict the likely ecological, social and economic effects. This knowledge must be balanced with consideration of social and cultural concerns to develop appropriate management strategies for this novel introduction.

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“…The fertilizing effect of nutrients imported on aquatic ecosystems by hippos in Africa also varies seasonally. The ecosystem effects of hippos have been studied in savannah habitats of East Africa, where animals become concentrated in isolated pools during dry seasons of low river discharge (McCauley et al , Subalusky et al , Dutton et al , Stears et al , Subalusky et al , Schoelynck et al ). The impact of organic matter imported by hippos on aquatic ecosystems is often greatest in dry seasons when their densities are high and export through river flow is low (McCauley et al , Stears et al ).…”

Section: Introductionmentioning

confidence: 99%

Ecosystem effects of the world’s largest invasive animal

Shurin

Riaño

Negro

et al. 2020

Ecology

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The keystone roles of mega-fauna in many terrestrial ecosystems have been lost to defaunation. Large predators and herbivores often play keystone roles in their native ranges, and some have established invasive populations in new biogeographic regions. However, few empirical examples are available to guide expectations about how mega-fauna affect ecosystems in novel environmental and evolutionary contexts. We examined the impacts on aquatic ecosystems of an emerging population of hippopotamus (Hippopotamus amphibus) that has been growing in Colombia over the last 25 yr. Hippos in Africa fertilize lakes and rivers by grazing on land and excreting wastes in the water. Stable isotopes indicate that terrestrial sources contribute more carbon in Colombian lakes containing hippo populations, and daily dissolved oxygen cycles suggest that their presence stimulates ecosystem metabolism. Phytoplankton communities were more dominated by cyanobacteria in lakes with hippos, and bacteria, zooplankton, and benthic invertebrate communities were similar regardless of hippo presence. Our results suggest that hippos recapitulate their role as ecosystem engineers in Colombia, importing terrestrial organic matter and nutrients with detectable impacts on ecosystem metabolism and community structure in the early stages of invasion. Ongoing range expansion may pose a threat to water resources.

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Organic matter and nutrient inputs from large wildlife influence ecosystem function in the Mara River, Africa

Cited by 45 publications

References 94 publications

Context dependency of animal resource subsidies

Context dependency of animal resource subsidies

Potential ecological and socio-economic effects of a novel megaherbivore introduction: the hippopotamus in Colombia

Ecosystem effects of the world’s largest invasive animal

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