Improved estimation of gut passage time considerably affects trait‐based dispersal models

Abraham, Andrew; Prys-Jones, Tomos O.; Cuyper, Annelies De; Ridenour, Chase; Hempson, Gareth P.; Hocking, Toby Dylan; Clauss, Marcus; Doughty, Christopher E.

doi:10.1111/1365-2435.13726

Cited by 8 publications

(8 citation statements)

References 56 publications

(126 reference statements)

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“…The specific environmental characteristics of sites that influence disperser movements need to be investigated, particularly in the face of global climate change, habitat fragmentation, and diminishing intact wilderness. In addition, life history strategies and stages of individuals, such as phenotypic, size-, and age-related variation influence animal GPTs and movements (Byrne et al, 2019;Abraham et al, 2021). While we identified individual variation in elephant movement, individual variation in fruit consumption rates and seed deposition patterns could also strongly influence the patterns and outcomes of seed dispersal (Markl et al, 2012).…”

Section: Discussionmentioning

confidence: 88%

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Long Distance Seed Dispersal by Forest Elephants

et al. 2021

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By dispersing seeds long distances, large, fruit-eating animals influence plant population spread and community dynamics. After fruit consumption, animal gut passage time and movement determine seed dispersal patterns and distances. These, in turn, are influenced by extrinsic, environmental variables and intrinsic, individual-level variables. We simulated seed dispersal by forest elephants (Loxodonta cyclotis) by integrating gut passage data from wild elephants with movement data from 96 individuals. On average, elephants dispersed seeds 5.3 km, with 89% of seeds dispersed farther than 1 km. The longest simulated seed dispersal distance was 101 km, with an average maximum dispersal distance of 40.1 km. Seed dispersal distances varied among national parks, perhaps due to unmeasured environmental differences such as habitat heterogeneity and configuration, but not with human disturbance or habitat openness. On average, male elephants dispersed seeds farther than females. Elephant behavioral traits strongly influenced dispersal distances, with bold, exploratory elephants dispersing seeds 1.1 km farther than shy, idler elephants. Protection of forest elephants, particularly males and highly mobile, exploratory individuals, is critical to maintaining long distance seed dispersal services that shape plant communities and tropical forest habitat.

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Section: Discussionmentioning

confidence: 88%

“…Sex-based effects are likely even stronger than our findings because males are large, have higher energy needs, and therefore likely consume more fruit and disperse more seeds than females. In addition, mammalian GPT tends to scale with mass (Abraham et al, 2021); thus, male GPTs should be slower than female GPTs.…”

Section: Discussionmentioning

confidence: 99%

Long Distance Seed Dispersal by Forest Elephants

et al. 2021

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“…While this suite of models has allowed us to appreciate the importance of animals as agents within local and global biogeochemical cycles in a computationally efficient manner (Schmitz et al 2018; Abraham et al 2022 a ), there are several shortcomings. These include issues related to poorly mapped underlying element distributions (Wolf et al 2013), a bias toward large vertebrate herbivores (Doughty et al 2016), compound effects of using inaccurate mass‐based scaling parameters such as gut passage time (Abraham et al 2021 a ), unrealistic movement strategies which are approximated to Brownian motion (Wolf et al 2013), and no feedback between animals and their elemental environment—an important relationship that drastically impacts animal movement (McInturf et al 2019). As a result, precise estimation of how human activities influence element recycling and redistribution by animals in any one place is inherently uncertain, which has precluded the application of these models for modern‐day wildlife and landscape management.…”

Section: Current Framework To Model Animal Element Redistributionmentioning

confidence: 99%

Understanding anthropogenic impacts on zoogeochemistry is essential for ecological restoration

Abraham

Duvall

Ferraro

et al. 2022

Restoration Ecology

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Ecological restoration is critical for climate and biodiversity resilience over the coming century. Today, there is strong evidence that wildlife can significantly influence the distribution and stoichiometry of elements across landscapes, with subsequent impacts on the composition and functioning of ecosystems. Consequently, any anthropogenic activity that modifies this important aspect of zoogeochemistry, such as changes to animal community composition, diet, or movement patterns, may support or hinder restoration goals. It is therefore imperative that the zoogeochemical effects of such anthropogenic modifications are quantified and mapped at high spatiotemporal resolutions to help inform restoration strategies. Here, we first discuss pathways through which human activities shape wildlife-mediated elemental landscapes and outline why current frameworks are inadequate to characterize these processes. We then suggest improvements required to comprehensively model, validate, and monitor element recycling and redistribution by wildlife under differing wildlife management scenarios and discuss how this might be implemented in practice through a specific example in the southern Kalahari Desert. With robust ecological forecasting, zoogeochemical impacts of wildlife can thus be used to support ecological restoration and nature-based solutions to climate change. If ignored in the restoration process, the effects of wildlife on elemental landscapes may delay, or even prevent, restoration success.

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“…Information on body weight were also gathered on this website. Information about coefficients of gut differentiation, pH, diet fibre content, and intestinal tract structure and mean retention time were gather from 3,86,[110][111][112][113][114] . Information on methanol, H CO and CH 4 in the gut and in marine sediments originate from 18,46,115-123 .…”

Section: Origin Of the Metadatamentioning

confidence: 99%

Factors shaping the abundance and diversity of archaea in the animal gut

Thomas

Quéméner

Gribaldo

et al. 2021

Preprint

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Archaea are active members of the gut microbiome, but a thorough analysis of their diversity and abundance in a wide range of animals is lacking. Here, we examined both quantitatively and qualitatively the gut archaeome of 269 species from invertebrates to primates. Archaea are present across many animals and mostly represented by four genera and one family of methanogens, but also members of Thaumarchaeota. Five major events of adaptation to the gut in the Archaea were identified. Host phylogeny, diet, and intestinal tract physiology are key factors shaping the structure and abundance of the archaeome. The abundance of methanogens is positively correlated with diet fibre content in mammals and hydrogenotrophic methyl-reducing methanogenesis (the main methanogenesis pathway in many animals) is linked to diet and methyl compounds-producing bacteria. Our results provide unprecedented insights on the intestinal archaeome and pave the way for further studies on their role in this environment.

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Improved estimation of gut passage time considerably affects trait‐based dispersal models

Cited by 8 publications

References 56 publications

Long Distance Seed Dispersal by Forest Elephants

Long Distance Seed Dispersal by Forest Elephants

Understanding anthropogenic impacts on zoogeochemistry is essential for ecological restoration

Factors shaping the abundance and diversity of archaea in the animal gut

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