Are elevated δ15N values in herbivores in hot and arid environments caused by diet or animal physiology?
Article first published online: 28 SEP 2010
© 2010 The Author. Functional Ecology © 2010 British Ecological Society
Special Issue: ECOLOGICAL IMMUNOLOGY
Volume 25, Issue 1, pages 122–131, February 2011
How to Cite
Hartman, G. (2011), Are elevated δ15N values in herbivores in hot and arid environments caused by diet or animal physiology?. Functional Ecology, 25: 122–131. doi: 10.1111/j.1365-2435.2010.01782.x
- Issue published online: 21 JAN 2011
- Article first published online: 28 SEP 2010
- Received 16 February 2010; accepted 23 August 2010Handling Editor: David Raubenheimer
- Capra ibex nubiana;
- Gazella dorcas;
- nitrogen conservation;
- water stress physiology
1. Mammalian species from hot and arid environments often have elevated nitrogen isotope values compared to animals from similar trophic levels in more temperate climates. This pattern has most often been explained as the result of a physiological response by animals to heat and water stress. However, a positive correlation between rainfall and the δ15N values of plants and herbivorous mammalian species suggests that diet may be responsible.
2. This study uses the horn keratin of desert-adapted bovids (Dorcas gazelle and Nubian ibex) to test whether the δ15N values of herbivore body tissues are determined by heat and water stress or by the isotopic composition of their diet. The δ15N values of horn keratin are compared against several climatic factors that affect heat and water stress to determine if a relationship exists. In addition, the range of δ15N values measured in desert vegetation is used to evaluate the contribution of the diet to the isotopic values of bovid body tissue.
3. The δ15N values of desert bovid horn keratin were correlated against individual climatic factors that induce water stress and were not found to be significant. When climatic factors were combined, a significant positive correlation was found between the δ15N values of Dorcas gazelles and temperature, humidity, and rainfall. This observation contradicts the physiological stress hypothesis that predicts a negative correlation between rainfall and humidity and δ15N values. Instead, this correlation is likely attributable to denitrification processes in the soil that directly affect the isotopic values of the plants. Values for δ15N of horn keratin fall within the range predicted by discrimination between diet and consumer (Δ = 4·1‰) which supports the diet hypothesis.
4. The results suggest that the isotopic composition of the diet is the dominant factor determining the δ15N values of herbivore body tissue.