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2. Using multiscale lidar to determine variation in canopy structure from African forest elephant trails

Author

Jenna M. Keany, Patrick Burns, Andrew J. Abraham, Patrick Jantz, Loic Makaga, Sassan Saatchi, Fiona Maisels, Katharine Abernethy, and Christopher E. Doughty

Subjects
Canopy structure, conservation, lidar, megaherbivore, remote sensing, trails, Technology, Ecology, QH540-549.5
Abstract

Abstract Recently classified as a unique species by the IUCN, African forest elephants (Loxodonta cyclotis) are critically endangered due to severe poaching. With limited knowledge about their ecological role due to the dense tropical forests they inhabit in central Africa, it is unclear how the Afrotropics are influenced by elephants. Although their role as seed dispersers is well known, they may also drive large‐scale processes that determine forest structure through the creation of elephant trails and browsing the understory, allowing larger, carbon‐dense trees to succeed. Multiple scales of lidar were collected by NASA in Lopé National Park, Gabon from 2015 to 2022. Utilizing two airborne lidar datasets in an African forest elephant stronghold, detailed canopy structural information was used in conjunction with elephant trail data to determine how forest structure varies on and off trails. Forest along elephant trails displayed different structural characteristics than forested areas off trails, with lower canopy height, canopy cover, and different vertical distribution of plant density. Less plant area density was found on trails at 1 m in height, while more vegetation was found at 12 m, compared to off trail locations. Trails in forest areas with previous logging history had lower plant area in the top of the canopy. Forest elephants can be considered as “logging light” ecosystem engineers, affecting canopy structure through browsing and movement. Both airborne lidar scales were able to capture elephant impact along trails, with the high‐resolution discrete return lidar performing higher than waveform lidar.

Published
2024
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4. Zoogeochemistry of a protected area: Driven by anthropogenic impacts and animal behavior

Author

Jonas Trepel, Andrew J. Abraham, Erick J. Lundgren, Kristy M. Ferraro, Camilla Fløjgaard, Lars Haugaard, Peter Sunde, Rasmus Ø. Pedersen, Melanie Tietje, Johannes Kamp, and Elizabeth leRoux

Subjects
anthropogenic impact, conservation biology, deer, eutrophication, large herbivores, management, Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5
Abstract

Abstract Anthropogenic eutrophication of ecosystems is an important driver of biodiversity loss. Even protected areas (PAs) may be impacted by anthropogenic nutrients, for example, from atmospheric deposition or the provision of supplementary feeding. However, the resultant nutrient patterns, and the role of local wildlife in shaping them, remain poorly understood. We investigated anthropogenic influences on the role that red deer (Cervus elaphus) play in the nutrient balance of a PA in Denmark. We used habitat selection modeling and theoretical scenarios where we varied the proportion of energy the deer obtained from supplementary versus natural forage and compared it with the nutrients removed due to hunting. We show that the movement and distribution of the red deer population within the PA are very heterogeneous and likely influenced by the need for shelter. Moreover, depending on their reliance on supplementary feeding, deer can potentially import large amounts of nutrients to the PA, and concentrate them in localized hotspots. However, we also explore the potential for nutrient loss due to hunting activities. Such indirect anthropogenic impacts on nutrient landscapes may counteract restoration and conservation efforts. We therefore recommend incorporating anthropogenic influences on zoogeochemistry and the animal‐mediated connectivity between PAs and anthropogenically dominated landscapes into future management plans.

Published
2024
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6. Supplementary bird feeding as an overlooked contribution to local phosphorus cycles.

Author

Abraham, Andrew J, Doughty, Christopher E, Plummer, Kate E, and Duvall, Ethan S

Subjects
SPOIL banks, BIOGEOCHEMICAL cycles, ATMOSPHERIC deposition, FERTILIZER application, ANIMAL health, BIRD feeders
Abstract

Supplementary feeding of garden birds and gamebirds is a common practice worldwide. Bird feed is rich in phosphorus (P), which plays a key role in animal health and ecosystem function. However, much of the P in bird feed originates from mined rock deposits, which is then transported thousands of kilometers to feeder stations, where it represents an external source of nutrients for recipient ecosystems. Here, we demonstrate that diffusion of P by birds and other animals from feeder stations to ecosystems can represent a nontrivial contribution to local biogeochemical cycles. Using the UK as a case study, we show that supplementary bird feeding supplies 2.4 (range: 1.9–3.0) gigagrams of P per year across the UK, a flux similar in magnitude to atmospheric deposition. Phosphorus provided to garden birds alone is equal to that supplied through the application of garden fertilizers. In natural and semi‐natural ecosystems, additional feeder‐derived P inputs may exacerbate eutrophication at the local scale and adversely impact biodiversity. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Using multiscale lidar to determine variation in canopy structure from African forest elephant trails.

Author

Keany, Jenna M., Burns, Patrick, Abraham, Andrew J., Jantz, Patrick, Makaga, Loic, Saatchi, Sassan, Maisels, Fiona, Abernethy, Katharine, and Doughty, Christopher E.

Subjects
AFRICAN elephant, TROPICAL forests, PLANT spacing, REMOTE sensing, PHYTOGEOGRAPHY
Abstract

Recently classified as a unique species by the IUCN, African forest elephants (Loxodonta cyclotis) are critically endangered due to severe poaching. With limited knowledge about their ecological role due to the dense tropical forests they inhabit in central Africa, it is unclear how the Afrotropics are influenced by elephants. Although their role as seed dispersers is well known, they may also drive large‐scale processes that determine forest structure through the creation of elephant trails and browsing the understory, allowing larger, carbon‐dense trees to succeed. Multiple scales of lidar were collected by NASA in Lopé National Park, Gabon from 2015 to 2022. Utilizing two airborne lidar datasets in an African forest elephant stronghold, detailed canopy structural information was used in conjunction with elephant trail data to determine how forest structure varies on and off trails. Forest along elephant trails displayed different structural characteristics than forested areas off trails, with lower canopy height, canopy cover, and different vertical distribution of plant density. Less plant area density was found on trails at 1 m in height, while more vegetation was found at 12 m, compared to off trail locations. Trails in forest areas with previous logging history had lower plant area in the top of the canopy. Forest elephants can be considered as "logging light" ecosystem engineers, affecting canopy structure through browsing and movement. Both airborne lidar scales were able to capture elephant impact along trails, with the high‐resolution discrete return lidar performing higher than waveform lidar. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Consumption of hyaena faeces and artificial mineral licks by leopard tortoises (Stigmochelys pardalis) in a low‐nutrient environment.

Author

Abraham, Andrew J., Louw, Mattheus L. H., van Dijk, Laurene M., and Webster, Andrea B.

Subjects
*MINERALS in nutrition, *TESTUDINIDAE, *CONSUMPTION (Economics), *PICA (Pathology), *TOILETS
Abstract

Hyaena faeces and mineral licks represent highly concentrated nutrient resources for leopard tortoises (Stigmochelys pardalis) living in nutrient‐poor environments. Here, we provide direct evidence for the consumption of hyaena faeces and artificial mineral licks by leopard tortoises in the Kalahari Desert. Tortoises aggregated at hyaena latrines and lick sites during the wet season between 10 AM and 6 PM in groups of 1–5 individuals. Where both salt and mineral licks were available, tortoises displayed a preference for salt. We suggest that calcium, phosphorus and sodium deficits are likely driving coprophagy and geophagy behaviours by tortoises in the Kalahari. [ABSTRACT FROM AUTHOR]

Published
2024
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12. The megabiota are disproportionately important for biosphere functioning

Author

Brian J. Enquist, Andrew J. Abraham, Michael B. J. Harfoot, Yadvinder Malhi, and Christopher E. Doughty

Subjects
Science
Abstract

Human-driven losses of megafauna and megaflora may have disproportionate ecological consequences. Here, the authors combine metabolic scaling theory and global simulation models to show that past and continued reduction of megabiota have and will continue to decrease ecosystem and biosphere functioning.

Published
2020
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16. Tropical forests are mainly unstratified especially in Amazonia and regions with lower fertility or higher temperatures

Author

Doughty, Christopher E, primary, Gaillard, Camille, additional, Burns, Patrick, additional, Keany, Jenna M, additional, Abraham, Andrew J, additional, Malhi, Yadvinder, additional, Aguirre-Gutierrez, Jesus, additional, Koch, George, additional, Jantz, Patrick, additional, Shenkin, Alexander, additional, and Tang, Hao, additional

Published
2023
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19. Analysis of alternate material for bumpers using ULTEM and ABS.

Author

Abraham, J. D. Andrew Pon, Immanuel, A. Aro Jesroon, Krishanth, M., Nidarshan, S., and Arunsaco, S.

Subjects
*AUTOMOBILE bumpers, *MATERIALS analysis, *KINETIC energy
Abstract

Bumpers are safety structures that are hitched to the anterior and posterior end in a vehicle to protectinternal components from impacts and collisions. Internal vehicle components are protected by bumpers by dissipating kinetic energy created by an impact. Bumpers should possess some characteristics such as aerodynamic efficiency, good impact absorption and should be light-weight. Bumpers are meant to dent during the impacts rather than holding its original shape, when the bumper dents it absorbs the impact energy and preventing them being transferred into the passenger compartment of the vehicle. So in order to increase the efficiency and performance of the bumpers, a better material with improved properties, better tensile and flexural properties. In addition to that, all the newly manufactured vehicles are concentrating towards weight reduction, hence these alternate materials (Ultem and ABS) are light in weight hence minimal amount of weight reduction can also be achieved. [ABSTRACT FROM AUTHOR]

Published
2023
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21. Allometry of sodium requirements and mineral lick use among herbivorous mammals

Author

Duvall, Ethan S; https://orcid.org/0000-0002-4081-2228, Griffiths, Brian M; https://orcid.org/0000-0001-9522-7731, Clauss, Marcus; https://orcid.org/0000-0003-3841-6207, Abraham, Andrew J; https://orcid.org/0000-0001-8625-8851, Duvall, Ethan S; https://orcid.org/0000-0002-4081-2228, Griffiths, Brian M; https://orcid.org/0000-0001-9522-7731, Clauss, Marcus; https://orcid.org/0000-0003-3841-6207, and Abraham, Andrew J; https://orcid.org/0000-0001-8625-8851

Abstract

Sodium (Na) plays a critical role in the functioning of terrestrial ecosystems. In Na-poor regions, plant consumers may experience Na deficiency and adapt by seeking supplementary Na resources. This can markedly impact animal behavior, space-use, and co-existence, with concomitant impacts on ecosystems. Many studies have noted that Na-seeking behaviors, such as soil consumption from mineral licks, are predominately observed for larger-bodied herbivores. However, the mechanisms that drive interspecific variation in Na deficiency and mineral lick use remain poorly understood. Here, we examine whether allometric scaling of Na requirements can explain variation in mineral lick use by herbivorous and omnivorous mammals. We 1) collated data from published literature to derive an allometric scaling of Na requirements in mammals, 2) compared predicted Na requirements to estimated Na intake of mammal communities in three globally distant sites: the Peruvian Amazon, Kalahari Desert, and Malaysian Borneo and 3) examined the relationship between predicted Na deficiency and mineral lick use utilizing camera-trap and mammal abundance data at each site. We found that minimum daily Na maintenance requirements in mammals scaled allometrically at a higher factor (BM0.91 (CI: 0.80–1.0)) than that of food and water Na intake (BM0.71–0.79), indicating that larger species may be more susceptible to Na limitation. This aligned with a positive association between mineral lick use and body mass (BM), as well as Na deficiency, by species at all sites, and increased artificial salt and mineral lick consumption by larger-bodied mammals in the Kalahari. Our results suggest that larger herbivores may be more sensitive to anthropogenic impacts to Na availability, which may alter their functional roles in ecosystems, particularly in Na-poor regions. Further research is needed to explore the consequences of changing Na availability on animals and ecosystems, as well as advance our understanding of

Published
2023

22. Anthropogenic supply of nutrients in a wildlife reserve may compromise conservation success

Author

Abraham, Andrew J; https://orcid.org/0000-0001-8625-8851, Duvall, Ethan S; https://orcid.org/0000-0002-4081-2228, le Roux, Elizabeth; https://orcid.org/0000-0001-8468-8284, Ganswindt, André; https://orcid.org/0000-0002-1474-7602, Clauss, Marcus; https://orcid.org/0000-0003-3841-6207, Doughty, Christopher E; https://orcid.org/0000-0003-3985-7960, Webster, Andrea B; https://orcid.org/0000-0002-7136-4421, Abraham, Andrew J; https://orcid.org/0000-0001-8625-8851, Duvall, Ethan S; https://orcid.org/0000-0002-4081-2228, le Roux, Elizabeth; https://orcid.org/0000-0001-8468-8284, Ganswindt, André; https://orcid.org/0000-0002-1474-7602, Clauss, Marcus; https://orcid.org/0000-0003-3841-6207, Doughty, Christopher E; https://orcid.org/0000-0003-3985-7960, and Webster, Andrea B; https://orcid.org/0000-0002-7136-4421

Abstract

In nutrient-poor wildlife reserves it has become common-practice to provide supplemental mineral resources for wildlife. Yet, the impacts of anthropogenic mineral supplementation on large herbivore nutrition, behaviour, and subsequent impact on ecosystem processes have received little attention. Here, we examine the contribution of anthropogenic mineral lick provision to wildlife nutrient intake across a community of mammalian herbivores (>10 kg) in the southern Kalahari Desert. Based on predicted daily nutrient intake and a faecal nutrient assessment, many large herbivore species appear deficient in phosphorus (P), sodium (Na), or zinc (Zn). For these nutrients, anthropogenic salt and mineral licks constitute an important source of nutrient intake helping to reduce or overcome requirement deficits. Larger-bodied species disproportionately consumed licks, acquiring more nutritional benefits. A comprehensive assessment of animal body condition indicated that, in general, large herbivores display good health. However, bulk grazers, non-ruminants and females displayed poorer body condition. We discuss how provisioning of anthropogenic mineral licks may inflate large herbivore populations beyond the long-term carrying capacity of the reserve by decoupling wildlife fecundity from nutrient-related feedbacks on population growth. Over time, this could compromise ecosystem integrity through habitat degradation, modified species interactions and trophic cascades. Based on results presented here, it is clear that anthropogenic provisioning of mineral licks should be considered cautiously by wildlife managers aiming to conserve natural processes in landscapes.

Published
2023

23. Anthropogenic supply of nutrients in a wildlife reserve may compromise conservation success

Author

Andrew J Abraham, Ethan Duvall, Elizabeth le Roux, Andre Ganswindt, Marcus Clauss, Christopher Doughty, and Andrea Webster

Abstract

In nutrient-poor wildlife reserves it has become common-place to provide supplemental mineral resources for wildlife. Yet, the impacts of anthropogenic mineral supplementation on community-wide wildlife nutrition, behaviour and subsequent impact on ecosystem processes remain poorly understood. Here, we examine the contribution of anthropogenic mineral lick provision to wildlife nutrient intake across a community of large mammals (>10kg) in the southern Kalahari Desert. Based on predicted daily nutrient requirements and a faecal nutrient assessment, large herbivores appear deficient in phosphorus (P), sodium (Na) and zinc (Zn). For these nutrients, anthropogenic salt and mineral licks constitute an important (>10%) source of nutrient intake helping to reduce or overcome requirement deficits. Larger-bodied species disproportionately consumed licks (p

Published
2022
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28. Metagenomic analysis of coprolites from three Late Pleistocene megaherbivores from the Southwestern United States

Author

Tomos O. Prys-Jones, Tara N. Furstenau, Andrew J. Abraham, Isaac N. Shaffer, Colin J. Sobek, Jordyn R. Upton, Samantha N. Hershauer, Kelvin Wong, Marirosa Molina, Sebastian Menke, Jim I. Mead, Christopher H. Ebert, Mariah S. Carbone, Edward A.G. Schuur, Faith M. Walker, Viachelsav Y. Fofanov, and Christopher E. Doughty

Abstract

1.ABSTRACTBackgroundDetermining the life-history traits of extinct species is often difficult from skeletal remains alone, limiting the accuracy of studies modeling past ecosystems. However, the analysis of the degraded endogenous bacterial DNA present in paleontological fecal matter (coprolites) may enable the characterization of specific traits such as the host’s digestive physiology and diet. An issue when evaluating the microbial composition of coprolites is the degree to which the microbiome is representative of the host’s original gut community versus the changes that occur in the weeks following deposition due to desiccation. Analyses of paleontological microorganisms are also relevant in the light of recent studies linking the Late Pleistocene and Early Holocene extinctions with modern-day zoonotic pathogen outbreaks.MethodsShotgun sequencing was performed on ancient DNA (aDNA) extracted from coprolites of the Columbian mammoth (Mammuthus Columbi), Shasta ground sloth (Nothrotheriops shastensis) and paleontological bison (Bison sp.) collected from caves on the Colorado Plateau, Southwestern USA. The novel metagenomic classifier MTSv, parameterized for studies of aDNA, was used to assign bacterial taxa to sequencing reads. The resulting bacterial community of coprolites was then compared to those from modern fecal specimens of the African savannah elephant (Loxodonta africana), the brown-throated sloth (Bradypus variegatus) and the modern bison (Bison bison). Both paleontological and modern bison fecal bacterial communities were also compared to those of progressively dried cattle feces to determine whether endogenous DNA from coprolites had a microbiome signal skewed towards aerobic microorganisms typical of desiccated fecal matter.ResultsThe diversity of phyla identified from coprolites was lower than modern specimens. The relative abundance of Actinobacteria was increased in coprolites compared to modern specimens, with fewer Bacteroidetes and Euryarchaeota. Firmicutes had a reduced relative abundance in the mammoth and bison coprolites, compared to the African savanna elephants and modern bison. There was a significant separation of samples in NMDS plots based on their classification as either paleontological or modern, and to a lesser extent, based on the host species. Increasingly dried cattle feces formed a continuum between the modern and paleontological bison samples.ConclusionOur results reveal that any coprolite metagenomes should always be compared to desiccated modern fecal samples from closely related hosts fed a comparable diet to determine the degree to which the coprolite metagenome is a result of desiccation versus true dissimilarities between the modern and paleontological hosts. Also, a large-scale desiccation study including a variety of modern species may shed light on life-history traits of extinct species without close extant relatives, by establishing the proximity of coprolite metagenomes with those from dried modern samples.

Published
2022
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29. Large predators can mitigate nutrient losses associated with off-site removal of animals from a wildlife reserve

Author

Tomos O. Prys-Jones, Duncan McFayden, Marcus Clauss, Elizabeth le Roux, Dylan Smith, Andrea B. Webster, Christopher E. Doughty, Pieter C. de Jager, Andrew J. Abraham, University of Zurich, and Abraham, Andrew J

Subjects
Nutrient cycle, Herbivore, 10253 Department of Small Animals, calcium, 630 Agriculture, Ecology, carnivore, Wildlife, nutrient cycles, Biology, Predation, Nutrient, Agronomy, biogeochemistry, Dry season, 570 Life sciences, biology, skeleton, Ecosystem, Wildlife management, wildlife management, phosphorus, 2303 Ecology
Abstract

Animals concentrate key nutrients in their bodies. In fenced wildlife reserves where nutrient input and/or retention is low, the off-site removal of animals may constitute a significant loss of nutrients for the ecosystem. Here we add wildlife capture and removal into the phosphorus (P) and calcium (Ca) budget for a 121,700 ha fenced game reserve located in the southern Kalahari. We then use faecal P concentrations from 11 mammal herbivores >10 kg as an indicator of potential nutrient stress in this system to investigate whether the implications of nutrient loss via off-site wildlife removal may be cause for concern. Finally, we assess the role of natural predation as a mechanism to minimise the need for wildlife removal and concomitant nutrient loss. During the period 2009–2018, mean loss of P and Ca via wildlife removal was 2.9 and 6.2 kg km−2 year−1, respectively. This compares to 1.0 and 2.1 kg km−2 year−1 of P and Ca added via the provision of mineral licks. If it is assumed that natural fluxes of these elements are in steady state, then anthropogenic activities have resulted in a net deficit of 18.5 kg/km2 of P and 40.6 kg/km2 of Ca over the decade. We found that dry season herbivore faecal P concentrations are close to or below a widely cited minimum threshold of 2,000 mg/kg, below which most vertebrates begin suffering growth and reproductive issues. Large animals were more likely to be under this threshold. Prolonged continuation of off-site wildlife removal may result in nutrient losses that can lead to long-term ecological degradation. Natural predation levels were, however, found sufficient to mitigate the need for wildlife removal and present a management strategy whereby herbivore populations can be regulated without a loss of nutrients. Synthesis and applications. We find that the capture and permanent removal of large-bodied animals from wildlife reserves can be a significant cause of nutrient loss. Over time, in sites where nutrient input and/or retention is low, this may contribute to nutritional stress for remaining resident animals. Where possible, holistic management strategies that promote the retention of animals and carcasses within the reserve—such as the reintroduction of large carnivores—should be preferred.

Published
2021
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30. Understanding anthropogenic impacts on zoogeochemistry is essential for ecological restoration.

Author

Abraham, Andrew J., Duvall, Ethan, Ferraro, Kristy, Webster, Andrea B., Doughty, Christopher E., le Roux, Elizabeth, and Ellis‐Soto, Diego

Subjects
*RESTORATION ecology, *ANIMAL communities, *ECOLOGICAL forecasting, *CLIMATE change, *WILDLIFE management, *GEOCHEMISTRY, *STREAM restoration, *ECOSYSTEMS
Abstract

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. [ABSTRACT FROM AUTHOR]

Published
2023
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31. Metagenomic analysis of coprolites from three Late Pleistocene megaherbivores from the Southwestern United States

Author

Prys-Jones, Tomos O., primary, Furstenau, Tara N., additional, Abraham, Andrew J., additional, Shaffer, Isaac N., additional, Sobek, Colin J., additional, Upton, Jordyn R., additional, Hershauer, Samantha N., additional, Wong, Kelvin, additional, Molina, Marirosa, additional, Menke, Sebastian, additional, Mead, Jim I., additional, Ebert, Christopher H., additional, Carbone, Mariah S., additional, Schuur, Edward A.G., additional, Walker, Faith M., additional, Fofanov, Viachelsav Y., additional, and Doughty, Christopher E., additional

Published
2022
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32. Environment friendly refrigerant options for automobile air conditioners: a review

Author

Murugesan Mohanraj and J. D. Andrew Pon Abraham

Subjects
Flammable liquid, Waste management, business.industry, Secondary loop, 02 engineering and technology, Research needs, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Environmentally friendly, Automobile air conditioning, 010406 physical chemistry, 0104 chemical sciences, Refrigerant, chemistry.chemical_compound, chemistry, Aquatic environment, Air conditioning, Environmental science, Physical and Theoretical Chemistry, 0210 nano-technology, business
Abstract

In this paper, the environment friendly refrigerant options suitable for automobile air conditioners are reviewed. Initially, the thermophysical, thermodynamic and chemical characteristics of the environment friendly refrigerant options are presented. Then, the reviews of research investigations reported on environment friendly refrigerant options (such as hydrofluorocarbons, hydrofluoroolefins, hydrocarbons, carbon dioxide, composite mixed refrigerants and nanorefrigerants) are presented. The limitations and further research needs with environment friendly refrigerant options are identified and listed. The paper concludes that the hydrocarbon refrigerants will dominate the automobile air conditioning sector due to their good thermodynamic, thermophysical and environmental properties. Secondary loop configurations are recommended for the use of hydrocarbon refrigerants to reduce the flammable risk. The carbon dioxide is identified as a good option for electrical vehicles operating at low ambient conditions. The hydrofluoroolefins have short atmospheric life and get decomposed in the atmosphere and form tri-fluoro-acetic acid, which is harmful to the aquatic environment. Hence, hydro-fluoro-olefins are identified as an interim option. The outcome of this review is more helpful to the manufacturers and researchers working in the field of automobile air conditioners.

Published
2020
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33. Megafauna decline have reduced pathogen dispersal which may have increased emergent infectious diseases

Author

Nathan C. Nieto, Victor O. Leshyk, Tomos O. Prys-Jones, Mauro Galetti, Andrew J. Abraham, Jens-Christian Svenning, Crystal M. Hepp, Søren Faurby, Christopher E. Doughty, Viacheslav Y. Fofanov, Northern Arizona Univ., Univ. of Gothenburg, Gothenburg Global Biodiversity Centre, Aarhus Univ., Universidade Estadual Paulista (Unesp), and Dept of Biology

Subjects
0106 biological sciences, Insular biogeography, Range (biology), Home range, Zoology, Biology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, megafauna, extinctions, Megafauna, Endemism, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 2. Zero hunger, 0303 health sciences, Ecology, 010604 marine biology & hydrobiology, Outbreak, 15. Life on land, humanities, 13. Climate action, emergent infectious diseases, Biological dispersal, Mammal
Abstract

Made available in DSpace on 2020-12-12T02:39:59Z (GMT). No. of bitstreams: 0 Previous issue date: 2020-08-01 The Late Quaternary extinctions of megafauna (defined as animal species > 44.5 kg) reduced the dispersal of seeds and nutrients, and likely also microbes and parasites. Here we use body-mass based scaling and range maps for extinct and extant mammal species to show that these extinctions led to an almost seven-fold reduction in the movement of gut-transported microbes, such as Escherichia coli (3.3–0.5 km2 d−1). Similarly, the extinctions led to a seven-fold reduction in the mean home ranges of vector-borne pathogens (7.8–1.1 km2). To understand the impact of this, we created an individual-based model where an order of magnitude decrease in home range increased maximum aggregated microbial mutations 4-fold after 20 000 yr. We hypothesize that pathogen speciation and hence endemism increased with isolation, as global dispersal distances decreased through a mechanism similar to the theory of island biogeography. To investigate if such an effect could be found, we analysed where 145 zoonotic diseases have emerged in human populations and found quantitative estimates of reduced dispersal of ectoparasites and fecal pathogens significantly improved our ability to predict the locations of outbreaks (increasing variance explained by 8%). There are limitations to this analysis which we discuss in detail, but if further studies support these results, they broadly suggest that reduced pathogen dispersal following megafauna extinctions may have increased the emergence of zoonotic pathogens moving into human populations. School of Informatics Computing and Cyber Systems Northern Arizona Univ. Dept of Biological and Environmental Sciences Univ. of Gothenburg Gothenburg Global Biodiversity Centre Dept of Biological Sciences Northern Arizona Univ. Center for Biodiversity Dynamics in a Changing World (BIOCHANGE) Dept of Biology Aarhus Univ. Section for Ecoinformatics and Biodiversity Dept of Biology Aarhus Univ. Inst. de Biociências Depto de Ecologia Univ. Estadual Paulista (UNESP) Univ. of Miami Dept of Biology Inst. de Biociências Depto de Ecologia Univ. Estadual Paulista (UNESP)

Published
2020
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34. The megabiota are disproportionately important for biosphere functioning

Author

Yadvinder Malhi, Andrew J. Abraham, Mike Harfoot, Brian J. Enquist, and Christopher E. Doughty

Subjects
0106 biological sciences, Conservation of Natural Resources, 010504 meteorology & atmospheric sciences, Climate Change, Science, Population Dynamics, Biodiversity, General Physics and Astronomy, Climate change, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Article, Trees, Animals, Humans, Ecosystem, Macroecology, lcsh:Science, 0105 earth and related environmental sciences, Biomass (ecology), Multidisciplinary, Extinction, Ecology, Conservation biology, Biosphere, Global change, Biota, General Chemistry, 15. Life on land, Plants, 13. Climate action, Environmental science, lcsh:Q
Abstract

A prominent signal of the Anthropocene is the extinction and population reduction of the megabiota—the largest animals and plants on the planet. However, we lack a predictive framework for the sensitivity of megabiota during times of rapid global change and how they impact the functioning of ecosystems and the biosphere. Here, we extend metabolic scaling theory and use global simulation models to demonstrate that (i) megabiota are more prone to extinction due to human land use, hunting, and climate change; (ii) loss of megabiota has a negative impact on ecosystem metabolism and functioning; and (iii) their reduction has and will continue to significantly decrease biosphere functioning. Global simulations show that continued loss of large animals alone could lead to a 44%, 18% and 92% reduction in terrestrial heterotrophic biomass, metabolism, and fertility respectively. Our findings suggest that policies that emphasize the promotion of large trees and animals will have disproportionate impact on biodiversity, ecosystem processes, and climate mitigation., Human-driven losses of megafauna and megaflora may have disproportionate ecological consequences. Here, the authors combine metabolic scaling theory and global simulation models to show that past and continued reduction of megabiota have and will continue to decrease ecosystem and biosphere functioning.

Published
2020
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36. Fabrication and testing of composites made of polyester fibres from waste paint brush bristles and reinforced with epoxy.

Author

Kumar, C. Naveen, Abraham, J. D. Andrew Pon, Pranesh, S. Shyam, Babu, G. Pravin, and Dharineesh, V. M.

Subjects
*FIBROUS composites, *POLYESTER fibers, *PAINTBRUSHES, *POLYMERIC composites, *FIBER orientation, *TENSILE tests, *EPOXY resins, *FLEXURAL strength testing
Abstract

In the world around 50 tonnes of paint brushes that are thrown away which contributes to 80 million pounds of wastes per year, this has a greater impact to the environment, these brushes are dumped in landfills and other areas which may affect the plants growth, and the nutrients present in the soil, also the ground water and its level. Because of these impacts this project is aimed to recycle this paint brushes into a polymer composite where the bristles made of polyester is collected and cleaned using acetone solution and reorganized as reinforcement for the composites. The polymer composites are fabricated under three cases in the weight ratio of 50:50 where 50 % of fiber is reinforced with 50 % epoxy matrix, case i) Random orientation of the fiber ii) 90 degree fiber orientation and iii) 0 degree fiber orientation, fabricated using compression molding process and these are tested for tensile strength and flexural strength. Among the three cases random orientation and 90 degree orientation show better tensile and flexural strength compared to 0 degree. [ABSTRACT FROM AUTHOR]

Published
2022
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37. Mapping the Leaf Economic Spectrum across West African Tropical Forests Using UAV-Acquired Hyperspectral Imagery

Author

Eleanor R. Thomson, Yadvinder Malhi, Harm Bartholomeus, Imma Oliveras, Agne Gvozdevaite, Theresa Peprah, Juha Suomalainen, John Quansah, John Seidu, Christian Adonteng, Andrew J. Abraham, Martin Herold, Stephen Adu-Bredu, and Christopher E. Doughty

Subjects
leaf traits, leaf economic spectrum, UAV, hyperspectral, spectroscopy, tropical forest, PLSR, Ghana, West Africa, Science
Abstract

The leaf economic spectrum (LES) describes a set of universal trade-offs between leaf mass per area (LMA), leaf nitrogen (N), leaf phosphorus (P) and leaf photosynthesis that influence patterns of primary productivity and nutrient cycling. Many questions regarding vegetation-climate feedbacks can be addressed with a better understanding of LES traits and their controls. Remote sensing offers enormous potential for generating large-scale LES trait data. Yet so far, canopy studies have been limited to imaging spectrometers onboard aircraft, which are rare, expensive to deploy and lack fine-scale resolution. In this study, we measured VNIR (visible-near infrared (400–1050 nm)) reflectance of individual sun and shade leaves in 7 one-ha tropical forest plots located along a 1200–2000 mm precipitation gradient in West Africa. We collected hyperspectral imaging data from 3 of the 7 plots, using an octocopter-based unmanned aerial vehicle (UAV), mounted with a hyperspectral mapping system (450–950 nm, 9 nm FWHM). Using partial least squares regression (PLSR), we found that the spectra of individual sun leaves demonstrated significant (p < 0.01) correlations with LMA and leaf chemical traits: r2 = 0.42 (LMA), r2 = 0.43 (N), r2 = 0.21 (P), r2 = 0.20 (leaf potassium (K)), r2 = 0.23 (leaf calcium (Ca)) and r2 = 0.14 (leaf magnesium (Mg)). Shade leaf spectra displayed stronger relationships with all leaf traits. At the airborne level, four of the six leaf traits demonstrated weak (p < 0.10) correlations with the UAV-collected spectra of 58 tree crowns: r2 = 0.25 (LMA), r2 = 0.22 (N), r2 = 0.22 (P), and r2 = 0.25 (Ca). From the airborne imaging data, we used LMA, N and P values to map the LES across the three plots, revealing precipitation and substrate as co-dominant drivers of trait distributions and relationships. Positive N-P correlations and LMA-P anticorrelations followed typical LES theory, but we found no classic trade-offs between LMA and N. Overall, this study demonstrates the application of UAVs to generating LES information and advancing the study and monitoring tropical forest functional diversity.

Published
2018
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38. Assessing Terra Disposal Orbit Candidates from an Orbital Debris Perspective

Author

Abraham, Andrew J, Thompson, Roger C, and Mantziaras, Dimitrios C

Subjects
Computer Programming And Software, Space Transportation And Safety
Abstract

The NASA Terra satellite is reaching the end of its mission life. Because the satellite resides in the 705 km Earth Science Constellation, disposal strategies need to be considered to remove it from this densely populated operational orbit. Of critical importance was the need to examine the future potential risk to other satellite residents of the 705 km constellation due to an unexpected breakup event of the Terra satellite post-disposal. This study quantifies the comparative risk of debris impacts associated with the two leading candidate disposal orbits (701 km vs. 686 km) and characterizes the suitability of each orbit for the purpose of long-term spacecraft disposal. The increase in collision risk to any member of the 705 km Earth Science Constellation is very modest. The long-term, average, total risk (including the ambient background risk) due to a Terra breakup at a disposal of -19 km (i.e., 686 km) relative to the 705 km constellation is 9.7 × 10(exp -6) impacts/day versus 1.0 × 10(exp -5) impacts/day for a disposal of only -4 km (i.e., 701 km). For perspective, note that the nominal space background risk to the 705 km constellation is 9.2 × 10(exp -6) impacts/day which implies a very modest increase in risk (approximately 3% difference between the two cases) due to a Terra breakup in either disposal orbit.

Published
2016

39. General Ecosystem Models, moving towards modelling responses and effects of whole ecosystems

Author

Andrew J. Abraham, Jens Krause, Almut Arneth, Mike Harfoot, Christopher E. Doughty, Selwyn Hoeks, and Derek P. Tittensor

Subjects
business.industry, Environmental resource management, Environmental science, Ecosystem, business
Abstract

Ecosystems are facing unprecedented pressures as a result of human activities. At the same time, ecology as a discipline is increasingly demanding more mechanistic understanding of what causes observed ecological patterns, in part for the development of the science but also to help mitigate impacts. Here, I will present the Madingley Model (www.madingleymodel.org), a General Ecosystem Model that aims to provide a mechanistic understanding of how ecosystems, on land and in the seas, are structured and how they function, and for how anthropogenic changes might alter that structure and function. I will discuss the model’s current capabilities, how it is being used, and highlight some necessary and exciting future directions for development.

Published
2021
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40. Forest Thinning in Ponderosa Pines Increases Carbon Use Efficiency and Energy Flow From Primary Producers to Primary Consumers

Author

Tomos O. Prŷs-Jones, Thomas Kolb, Christopher E. Doughty, and Andrew J. Abraham

Subjects
Atmospheric Science, Primary (chemistry), Ecology, Primary producers, Thinning, Agroforestry, Paleontology, Soil Science, chemistry.chemical_element, Forestry, Aquatic Science, chemistry, Energy flow, Environmental science, Carbon, Water Science and Technology
Published
2021
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42. Experimental assessments on R430A as an environment-friendly replacement to R134a in vehicle air conditioners

Author

Arun K. Raj, Murugesan Mohanraj, M. Selvakumar, and J. D. Andrew Pon Abraham

Subjects
Exergy, 0209 industrial biotechnology, business.industry, Mechanical Engineering, Applied Mathematics, General Engineering, Environmental engineering, Aerospace Engineering, Refrigeration, 02 engineering and technology, Coefficient of performance, Industrial and Manufacturing Engineering, Refrigerant, Diesel fuel, 020901 industrial engineering & automation, Air conditioning, Automotive Engineering, Environmental science, business, Condenser (heat transfer), Gas compressor
Abstract

The direct emission of refrigerants from air conditioners and indirect carbon dioxide emissions from its associated energy usage in vehicles contributes significantly toward global warming. The primary objectives of this investigation are to present the performance comparisons and highlight the environmental benefits of R430A as a replacement to R134a in vehicle air conditioners. The influences of seven critical parameters such as compressor angular velocity, ambient temperature, condenser air velocity, evaporator air velocity, passenger load capacity, relative humidity and solar radiation were considered for thermodynamic analysis of vehicle air conditioners. The experimental results revealed that the R430A has 4–10% higher refrigeration effect, 4–11% lower compressor power consumption, 7–12% higher coefficient of performance and 5–12% lower exergy destructions than R134a. The discharge temperature in the compressor of vehicle air conditioners using R430A was found to be 2–6 °C higher than R134a. The lubricants used in R134a systems were found physically stable at 6 °C elevated temperatures. The R430A has lesser total equivalent global warming potential by 32–40%, 30–35% and 44–50% than R134a in petrol, diesel and liquefied petroleum gas-fuelled vehicles.

Published
2021
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46. Distinguishing multicellular life on exoplanets by testing Earth as an exoplanet

Author

Michael Gowanlock, Andrew J. Abraham, Tyler D. Robinson, James Windsor, Michael Mommert, David Trilling, and Christopher E. Doughty

Subjects
Earth and Planetary Astrophysics (astro-ph.EP), Physics and Astronomy (miscellaneous), biology, Uranus, Red edge, FOS: Physical sciences, Venus, Mars Exploration Program, Polarization (waves), biology.organism_classification, Directional reflectance, Exoplanet, Astrobiology, Physics::Geophysics, Impact crater, Space and Planetary Science, Physics::Space Physics, Earth and Planetary Sciences (miscellaneous), Astrophysics::Earth and Planetary Astrophysics, other research area, Ecology, Evolution, Behavior and Systematics, Geology, Astrophysics - Earth and Planetary Astrophysics
Abstract

Can multicellular life be distinguished from single cellular life on an exoplanet? We hypothesize that abundant upright photosynthetic multicellular life (trees) will cast shadows at high sun angles that will distinguish them from single cellular life and test this using Earth as an exoplanet. We first test the concept using Unmanned Arial Vehicles (UAVs) at a replica moon landing site near Flagstaff, Arizona and show trees have both a distinctive reflectance signature (red edge) and geometric signature (shadows at high sun angles) that can distinguish them from replica moon craters. Next, we calculate reflectance signatures for Earth at several phase angles with POLDER (Polarization and Directionality of Earth's reflectance) satellite directional reflectance measurements and then reduce Earth to a single pixel. We compare Earth to other planetary bodies (Mars, the Moon, Venus, and Uranus) and hypothesize that Earths directional reflectance will be between strongly backscattering rocky bodies with no weathering (like Mars and the Moon) and cloudy bodies with more isotropic scattering (like Venus and Uranus). Our modelling results put Earth in line with strongly backscattering Mars, while our empirical results put Earth in line with more isotropic scattering Venus. We identify potential weaknesses in both the modeled and empirical results and suggest additional steps to determine whether this technique could distinguish upright multicellular life on exoplanets., Comment: 7 pages, 8 figures, 1 table. International Journal of Astrobiology 2020

Published
2020

47. The uneven weight distribution between predators and prey: Comparing gut fill between terrestrial herbivores and carnivores

Author

Daryl Codron, Andrew J. Abraham, Annelies De Cuyper, Carlo Meloro, Dennis W. H. Müller, Marcus Clauss, Geert Janssens, University of Zurich, and Clauss, Marcus

Subjects
0106 biological sciences, Dietary Fiber, 10253 Department of Small Animals, 1303 Biochemistry, Range (biology), Physiology, Metabolizable Energy, Carnivora, 01 natural sciences, Biochemistry, Retention time, Predation, Nutritional Ecology, Body Size, Carnivore, Predator, Trophic level, Motility Capsule System, 0303 health sciences, 630 Agriculture, Consumer, Prey, Body size, Nutrient Intake, Gut Fill/content, Different-sized Particles, Digestion, Retention Time, Gut fill/content, Food Chain, Biology, 010603 evolutionary biology, 03 medical and health sciences, QH301, Animal science, Species Specificity, 1312 Molecular Biology, Animals, Dry matter, Veterinary Sciences, Herbivory, Molecular Biology, 030304 developmental biology, Herbivore, QL, Body Weight, Body-mass, Biology and Life Sciences, 1314 Physiology, Feeding Behavior, Feed Consumption, QP, Diet, Gastrointestinal Tract, Predatory Behavior, 570 Life sciences, biology, Gastrointestinal Transit Times, Digesta Retention
Abstract

The general observation that secondary consumers ingest highly digestible food and have simple short guts and small abdominal cavities intuitively results in the assumption that mammalian carnivores carry less digesta in their gut compared to herbivores. Due to logistic constraints, this assumption has not been tested quantitatively so far. In this contribution, we estimated the dry matter gut contents (DMC) for 25 species of the order Carnivora (including two strictly herbivorous ones, the giant and the red panda) using the physical 'Occupancy Principle', based on a literature data collection on dry matter intake (DMI), apparent dry matter digestibility (aD DM) and retention time (RT), and compared the results to an existing collection for herbivores. Scaling exponents with body mass (BM) for both carnivores and herbivores were in the same range with DMI similar to BM0.75; aD DM similar to BM0; RT similar to BM0.11 and DMC similar to BM0.88. The trophic level (carnivore vs herbivore) significantly affected all digestive physiology parameters except for RT. Numerically, the carnivore DMI level reached 77%, the RT 32% and DMC only 29% of the corresponding herbivore values, whereas the herbivore aD DM only reached 82% of that of carnivores. Thus, we quantitatively show that carnivores carry less inert mass or gut content compared to herbivores, which putatively benefits them in predator-prey interactions and might have contributed to the evolution towards unguligradism in herbivores. As expected, the two panda species appeared as outliers in the dataset with low aD DM and RT for a herbivore but extremely high DMI values, resulting in DMC in the lower part of the herbivore range. Whereas the difference in DMI and DMC scaling in herbivores might allow larger herbivores to compensate for lower diet quality by ingesting more, this difference may allow larger carnivores not to go for less digestible prey parts, but mainly to increase meal intervals, i.e. not having to hunt on a daily basis.

Published
2020

48. Thermodynamic performance of automobile air conditioners working with R430A as a drop-in substitute to R134a

Author

Murugesan Mohanraj and J. D. Andrew Pon Abraham

Subjects
Exergy, business.industry, 02 engineering and technology, Coefficient of performance, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Automotive engineering, Automobile air conditioning, 010406 physical chemistry, 0104 chemical sciences, Refrigerant, Thermal expansion valve, Air conditioning, Environmental science, Physical and Theoretical Chemistry, 0210 nano-technology, business, Gas compressor, Condenser (heat transfer)
Abstract

The refrigerant R134a is to be phasing out soon in automobile air conditioning applications due to its high global warming potential of 1430. Hence, it is essential to identify a sustainable alternative refrigerant to phase out R134a in automobile air conditioners. This paper presents the experimental thermodynamic performance of R430A (composed of R152a and R600a, in the ratio of 76:24, by mass) as a drop-in substitute to replace R134a in automobile air conditioners. The experiments were carried out in an automobile air conditioner test setup equipped with a variable frequency drive electrical motor. During experimentation, the ambient temperature and ambient relative humidity were maintained at 35 ± 1 °C and 65 ± 5%, respectively. The compressor speed was varied in the range between 1000 and 3000 rpm. The results showed that the coefficient of performance of an automobile air conditioner working with R430A was found to be 12–20% higher with 6–11% reduced compressor power consumption when compared to R134a. The R430A has 2–6 °C higher compressor discharge temperature when compared to R134a. The physical stability of the lubricant used in the compressor was retained while operating with R430A. The maximum exergy destruction occurs in the compressor (0.28 kW for R134a and 0.24 kW for R430A) followed by evaporator (0.16 kW for R134a and 0.14 kW for R430A), condenser (0.14 for R134a and 0.12 kW for R430A) and expansion valve (0.043 kW for R134a and 0.039 kW for R430A) at a compressor speed of 1000 ± 10 rpm. The exergy destruction of the system operating with R430A was found to be 12–28% lower when compared to R134a systems due to its favorable thermo-physical properties. The total equivalent warming impact of R430A was found to be lower when compared to R134a by about 47.3%, 35% and 32.4% for LPG, petrol and diesel vehicles, respectively. The results confirmed that R430A is a good drop-in substitute to replace R134a in existing automobile air conditioning systems.

Published
2018
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49. The uneven weight distribution between predators and prey: Comparing gut fill between terrestrial herbivores and carnivores

Author

De Cuyper, Annelies; https://orcid.org/0000-0003-2057-8283, Meloro, Carlo; https://orcid.org/0000-0003-0175-1706, Abraham, Andrew J, Müller, Dennis W H; https://orcid.org/0000-0001-9996-064X, Codron, Daryl; https://orcid.org/0000-0001-5223-9513, Janssens, Geert P J, Clauss, Marcus; https://orcid.org/0000-0003-3841-6207, De Cuyper, Annelies; https://orcid.org/0000-0003-2057-8283, Meloro, Carlo; https://orcid.org/0000-0003-0175-1706, Abraham, Andrew J, Müller, Dennis W H; https://orcid.org/0000-0001-9996-064X, Codron, Daryl; https://orcid.org/0000-0001-5223-9513, Janssens, Geert P J, and Clauss, Marcus; https://orcid.org/0000-0003-3841-6207

Abstract

The general observation that secondary consumers ingest highly digestible food and have simple short guts and small abdominal cavities intuitively results in the assumption that mammalian carnivores carry less digesta in their gut compared to herbivores. Due to logistic constraints, this assumption has not been tested quantitatively so far. In this contribution, we estimated the dry matter gut contents (DMC) for 25 species of the order Carnivora (including two strictly herbivorous ones, the giant and the red panda) using the physical ‘Occupancy Principle’, based on a literature data collection on dry matter intake (DMI), apparent dry matter digestibility (aD DM) and retention time (RT), and compared the results to an existing collection for herbivores. Scaling exponents with body mass (BM) for both carnivores and herbivores were in the same range with DMI ~ BM0.75; aD DM ~ BM0; RT ~ BM0.11 and DMC ~ BM0.88. The trophic level (carnivore vs herbivore) significantly affected all digestive physiology parameters except for RT. Numerically, the carnivore DMI level reached 77%, the RT 32% and DMC only 29% of the corresponding herbivore values, whereas the herbivore aD DM only reached 82% of that of carnivores. Thus, we quantitatively show that carnivores carry less inert mass or gut content compared to herbivores, which putatively benefits them in predator-prey interactions and might have contributed to the evolution towards unguligradism in herbivores. As expected, the two panda species appeared as outliers in the dataset with low aD DM and RT for a herbivore but extremely high DMI values, resulting in DMC in the lower part of the herbivore range. Whereas the difference in DMI and DMC scaling in herbivores might allow larger herbivores to compensate for lower diet quality by ingesting more, this difference may allow larger carnivores not to go for less digestible prey parts, but mainly to increase meal intervals, i.e. not having to hunt on a daily basis.

Published
2020

50. Hyaenas play unique ecosystem role by recycling key nutrients in bones.

Author

Abraham, Andrew J., Webster, Andrea B., Jordaan, Jessica, Prys‐Jones, Tomos O., Ganswindt, Andre, De Jager, Pieter, and Doughty, Christopher E.

Subjects
*CARNIVOROUS animals, *NUTRIENT cycles, *ECOSYSTEMS, *WILDLIFE conservation, *ANIMAL tracks, *BIOMASS burning
Abstract

Where hyaenas were absent, osteodystrophy in vulture chicks due to Ca and P deficiency occurred in 17% of chicks, but no chicks suffered from this metabolic bone disease at sites where hyaenas were present (Richardson et al., 1986). In this inorganic white powder form (Figure 1c), hyaena faeces mimic the application of bone meal, a common fertiliser for soils, whereby stable Ca phosphates become increasingly soluble with decreasing soil pH (Jeng et al., 2007). Bones contain significant levels of calcium (Ca) and phosphorus (P), which are important to the functioning of terrestrial ecosystems (Carter et al., 2007). [Extracted from the article]

Published
2022
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