Cannot outrun the past: age, nutrition, and cohort influence horn size in pronghorn-Reference-Cited by-同舟云学术

Cannot outrun the past: age, nutrition, and cohort influence horn size in pronghorn

Published:2024-08-12 Issue: Volume: Page:
ISSN:0022-541X
Container-title:The Journal of Wildlife Management
language:en
Short-container-title:J Wildl Manag

Author:

Tafelmeyer Lee E.¹,LaSharr Tayler N.¹^ORCID,Binfet Justin²,Bredehoft Molly³,Hiatt Greg⁴,Lutz Daryl⁴,Mitchell Carl D.⁵,Monteith Kevin L.⁶^ORCID

Affiliation:

1. Haub School of the Environment and Natural Resources University of Wyoming 804 E Fremont Street Laramie 82071 WY USA

2. Wyoming Game and Fish Department Casper Regional Office, 3030 Energy Lane Casper 82604 WY USA

3. Wyoming Game and Fish Department Laramie Region, 1212 S Adams Street Laramie 82070 WY USA

4. Wyoming Game and Fish Department Lander Regional Office, 260 Buena Vista Drive Lander 82520 WY USA

5. Wayan Idaho 83285 USA

6. Haub School of the Environment and Natural Resources, Wyoming Cooperative Fish and Wildlife Research Unit, Department of Zoology and Physiology University of Wyoming 804 E Fremont Street Laramie 82071 WY USA

Abstract

AbstractIn North America, most ungulate species exhibit life‐history traits typical of long‐lived, iteroparous species wherein young males tend to prioritize essential life functions including body growth and maintenance that constrains allocation of resources to horn, antler, and pronghorn growth. As a result, males of most ungulate species require several years of growth before reaching asymptotic body size and thereafter, peak weapon size is attained. Unique among ungulate species in North America, pronghorn possess a suite of life‐history traits resulting in a precocious (i.e., unusually early development) pace of life relative to other North American ungulates. We tested the hypothesis that the fast pace of life of pronghorn extends to precocious development of large horns, and evaluated how horn size was affected by environmental conditions during the year they were grown and the potential for cohort effects associated with environmental signatures during the year of birth. We evaluated the influence of age and the environment on horn size of pronghorn using data collected from 1,789 male pronghorn harvested from 2019 to 2022 in Wyoming, USA. Pronghorn attained 95% of their peak horn size by 3.5 years old. Climatic conditions influenced horn growth through cohort effects and year of growth pathways. Snow depth during the year of birth positively influenced horn size, whereas the effects of environmental conditions during the year of horn growth were dependent on age. For young animals, snow depth and moderate drought positively influenced horn size during the year of horn growth, but the effect was negligible for prime aged and old animals. The precocious nature of pronghorn extended to their horn growth characteristics, resulting in early attainment of a large proportion of their peak horn size. The unique ecology of pronghorn and rapid attainment of size early in life can allow for greater flexibility to balance hunter opportunity and production of large‐horned males for pronghorn as compared with other ungulates.

Publisher

Wiley

Reference64 articles.

1. Albeke S. E. andJ. A.Merkle.2024. DEVISE.

2. Female choice selects for extreme tail length in a widowbird;Andersson M.;Nature,1982

3. Sexual Selection

4. Barrett A. P.2003.National Operational Hydrologic Remote Sensing Center Snow Data Assimilation System (SNODAS) products at NSIDC. NSIDC Special Report 11. National Snow and Ice Data Center Cooperative Institute for Research inEnvironmental Sciences University of Colorado Boulder USA.

5. Distribution, behavior, and mortality of pronghorns during a severe winter in Alberta;Barrett M. W.;Journal of Wildlife Management,1982