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Updated: Jun 26, 2026

Protocol for Assessing the Relative Effects of Environment and Genetics on Antler and Body Growth for a Long-lived Cervid
Published on: August 8, 2017
A F Malo1, E R S Roldan, J J Garde
1Departamento de Ecología Evolutiva, Museo Nacional de Ciencias Naturales, 28006 Madrid, Spain. a.malo@imperial.ac.uk
This study examines how testosterone influences reproductive traits and parasite resistance in male red deer. Researchers found that while higher hormone levels boost reproductive success and physical condition, they also increase susceptibility to certain internal parasites.
Area of Science:
Background:
No prior work had fully resolved the dual influence of androgens on male fitness traits and immune defense. It was already known that hormonal spikes often correlate with secondary sexual characteristics in many ungulates. That uncertainty drove researchers to investigate whether these physiological shifts carry inherent costs for the host. Prior research has shown that immunocompetence might decline when energy shifts toward mating displays. This gap motivated a comprehensive assessment of hormonal regulation across different environmental contexts. Scientists often struggle to disentangle age and body size from direct hormonal impacts. Captive settings provide controlled environments, whereas wild populations offer realistic ecological pressures. This study addresses these complexities to clarify the trade-offs inherent in male reproductive strategies.
Purpose Of The Study:
The aim of this study is to test the hypothesis that androgens exert a dual effect by enhancing sexual traits while depressing parasite resistance. Researchers sought to clarify how these hormones influence male fitness in different environmental settings. The team addressed the challenge of confounding variables like age and body size in natural populations. They intended to determine if hormonal peaks during the rut correlate with physical stamina and reproductive success. The study also examined whether these physiological benefits come at the expense of immune function. By comparing captive and wild cohorts, the authors aimed to isolate the direct impacts of hormonal regulation. This investigation provides a detailed look at the costs and benefits of male-specific endocrine profiles. The work ultimately seeks to provide evidence for the evolutionary trade-offs inherent in sexual selection.
Main Methods:
Review approach involved analyzing captive populations across the entire annual cycle to establish baseline hormonal patterns. The team evaluated wild subjects specifically during the breeding season to capture natural behavioral dynamics. Investigators accounted for body size and age to prevent data distortion. Statistical models assessed the influence of sampling dates on hormone concentrations. The researchers compared testes dimensions against hormonal peaks to validate physiological activity. They quantified sperm quality and antler morphology to measure reproductive success. The team screened for various parasites to determine immune status. This multi-faceted design allowed for a robust comparison between controlled and free-ranging cohorts.
Main Results:
The strongest finding indicates that higher hormone levels correlate with increased nematode parasite loads in wild males. In captive groups, seasonal hormonal shifts mirrored changes in testes size, showing a strong correlation during the rut. Wild males with elevated hormone concentrations exhibited larger testes and improved sperm quality. These individuals also displayed stronger antlers, although their burr diameter was smaller. Haematocrit levels were higher in males with greater hormonal output, suggesting improved physical stamina. No significant relationship emerged between hormone levels and spleen size. Similarly, tick parasite loads showed no statistical connection to hormonal status. These results demonstrate that hormonal spikes provide distinct reproductive advantages while simultaneously depressing specific immune defenses.
Conclusions:
The authors propose that high androgen levels facilitate significant reproductive investment and enhanced physical stamina in males. Synthesis and implications suggest that these hormones directly promote the development of stronger antlers. The evidence indicates a trade-off where increased hormonal activity leads to a reduction in burr diameter. The researchers conclude that this physiological state imposes a clear cost regarding parasite resistance. The findings highlight that elevated hormone levels correlate with higher nematode burdens in wild populations. The study clarifies that not all immune markers respond identically, as spleen size remained unaffected. These results support the hypothesis that sexual trait enhancement occurs at the expense of internal defense mechanisms. The work provides a framework for understanding the evolutionary costs associated with male-specific hormonal profiles.
The researchers propose that testosterone functions through a trade-off mechanism. While it enhances reproductive traits like sperm quality and antler strength, it simultaneously increases susceptibility to nematode infections, suggesting a cost to the host's internal immune defense.
The study utilizes testes size as a key indicator of reproductive investment. In captive red deer, seasonal fluctuations in hormone levels closely mirror changes in this organ, demonstrating a strong correlation during the rutting period.
Captive populations are necessary to isolate hormonal effects from environmental noise. By monitoring these animals throughout the entire annual cycle, scientists can control for confounding variables like age, body size, and specific sampling dates.
Haematocrit levels serve as a physiological marker for physical stamina. The authors observe that males with higher hormone concentrations exhibit elevated haematocrit, indicating a link between endocrine status and oxygen-carrying capacity in the blood.
The researchers measure nematode parasite load to assess immune resistance. They find a positive association between hormone levels and these internal parasites, contrasting this with tick loads, which show no significant relationship to hormonal status.
The authors imply that the observed physiological costs represent an evolutionary compromise. They suggest that the benefits of improved reproductive success and stamina must be balanced against the increased risk of parasite-induced morbidity.