https://github.com/cjabradshaw/bantengharvest
Matlab and R code to estimate offtake effects on banteng (Bos javanicus) populations
Science Score: 13.0%
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Low similarity (8.4%) to scientific vocabulary
Keywords
aboriginal
australia
banteng
bos-javanicus
economics
harvest
hunting
indigenous
leslie-matrix
safari
stochasticity
sustenance
viability
Last synced: 6 months ago
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Matlab and R code to estimate offtake effects on banteng (Bos javanicus) populations
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Topics
aboriginal
australia
banteng
bos-javanicus
economics
harvest
hunting
indigenous
leslie-matrix
safari
stochasticity
sustenance
viability
Created about 5 years ago
· Last pushed over 4 years ago
https://github.com/cjabradshaw/bantengharvest/blob/main/
# banteng harvest modelsMatlab and R code to estimate offtake effects on banteng (Bos javanicus) populations Associated with the paper: Bradshaw, CJA, BW Brook. 2007. Ecological-economic models of sustainable harvest for an endangered but exotic megaherbivore in northern Australia. Natural Resource Modeling 20: 129-156 ## Abstract How can one manage wildlife under a suite of competing values? In isolation, the ecological economics of native wildlife harvest, threatened species conservation and control of exotic species are all well established sub-disciplines of wildlife management. However, the wild banteng (Bos javanicus) population of northern Australia represents an interesting combination of these aspirations. A native bovid of Southeast Asia now endangered in its native range, banteng were introduced into northern Australia in 1849. Today, a population of 8,000 10,000 resides on one small, isolated peninsula in western Arnhem Land, Northern Territory and is harvested by both recreational (trophy) and aboriginal subsistence hunters. Indigenous, industry and conservationist stakeholders differ in their requirements for population management. Here we analyze the ecological and economic costs/benefits of a series of potential harvest management options for Australias banteng population, with the aim being either to: (1) maximize sustainable yield (MSY); (2) maximize harvest of trophy males; (3) maximize indigenous off-take; (4) suppress density or completely eradicate the population; (5) minimize risk of extinction whilst limiting range expansion; (6) scenarios incorporating two or more of options 1-5. The modeling framework employed stochastic, density-regulated matrix population models with life-history parameters derived from (i) allometric relationships (for estimating rmax, generation length, fecundity and densities for a banteng-sized mammal) and (ii) measured vital rates for wild and captive banteng and other Bos spp. For each management option, we present a simple economic analysis that incorporates estimated costs of management implementation and associated profits projected. Results demonstrate that revenue of > AU$200,000 is possible from meat production and safari hunting without compromising long-term population stability or the conservation status of this endangered bovid. ## Code -
banteng.m(Matlab) -banteng_harvest.R(R) ## Data - exch.txt - eycidat.csv
Owner
- Name: Corey Bradshaw
- Login: cjabradshaw
- Kind: user
- Location: Adelaide, South Australia
- Company: Flinders University
- Website: http://globalecologyflinders.com
- Twitter: conservbytes
- Repositories: 15
- Profile: https://github.com/cjabradshaw
Matthew Flinders Professor of Global Ecology @GlobalEcologyFlinders @CABAH