By a News Reporter-Staff News Editor at Ecology, Environment & Conservation -- Investigators publish new report on Ecology Research - Ecology and Evolution. According to news reporting from Parkville, Australia, by VerticalNews journalists, research stated, “An understanding of the direct links between animals and their environment can offer insights into the drivers and constraints to animal movement. Constraints on movement interact in complex ways with the physiology of the animal (metabolism) and physical environment (food and weather), but can be modelled using physical principles of energy and mass exchange.”
Financial support for this research came from Australian Research Council.
The news correspondents obtained a quote from the research from the University of Melbourne, “Here, we describe a general, spatially explicit individual-based movement model that couples a nutritional energy and mass budget model (dynamic energy budget theory) with a biophysical model of heat exchange. This provides a highly integrated method for constraining an ectothermic animal’s movement in response to how food and microclimates vary in space and time. The model uses r to drive a NetLogo individual-based model together with microclimate and energy- and mass-budget modelling functions from the r package NicheMapR. It explicitly incorporates physiological and morphological traits, behavioural thermoregulation, movement strategies and movement costs. From this, the model generates activity budgets of foraging and shade-seeking, home range behaviour, spatial movement patterns and life history consequences under user-defined configurations of food and microclimates. To illustrate the model, we run simulations of the Australian sleepy lizard Tiliqua rugosa under different movement strategies (optimising or satisficing) in two contrasting habitats of varying food and shade (sparse and dense). We then compare the results with real, fine-scale movement data of a wild population throughout the breeding season. Our results show that (1) the extremes of movement behaviour observed in sleepy lizards are consistent with feeding requirements (passive movement) and thermal constraints (active movement), (2) the model realistically captures majority of the distribution of observed home range size, (3) both satisficing and optimising movement strategies appear to exist in the wild population, but home range size more closely approximates an optimising strategy, and (4) satisficing was more energetically efficient than optimising movement, which returned no additional benefit in metabolic fitness outputs.”
According to the news reporters, the research concluded: “This framework for predicting physical constraints to individual movement can be extended to individual-level interactions with the same or different species and provides new capabilities for forecasting future responses to novel resource and weather scenarios.”
For more information on this research see: An individual-based model of ectotherm movement integrating metabolic and microclimatic constraints. Methods in Ecology and Evolution , 2018;9(3):472-489. Methods in Ecology and Evolution can be contacted at: Wiley, 111 River St, Hoboken 07030-5774, NJ, USA. (Wiley-Blackwell - http://www.wiley.com/; Methods in Ecology and Evolution - http://onlinelibrary.wiley.com/journal/10.1111/(ISSN)2041-210X)
Our news journalists report that additional information may be obtained by contacting M. Malishev, University of Melbourne, Sch BioSci, Parkville, Vic, Australia. Additional authors for this research include C.M. Bull and M.R. Kearney.
The direct object identifier (DOI) for that additional information is: https://doi.org/10.1111/2041-210X.12909. This DOI is a link to an online electronic document that is either free or for purchase, and can be your direct source for a journal article and its citation.
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CITATION: (2018-04-20), Study Results from University of Melbourne Provide New Insights into Ecology and Evolution (An individual-based model of ectotherm movement integrating metabolic and microclimatic constraints), Ecology, Environment & Conservation, 1379, ISSN: 1945-6506, BUTTER® ID: 015524070
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