B21G-0564
Ecosystem Responses To Plant Phenology Across Scales And Trophic Levels
Tuesday, 15 December 2015
Poster Hall (Moscone South)
David Stoner1, Joseph O Sexton2, Jyoteshwar R Nagol2, Kirsten Ironside3, David Choate4, Kathleen Longshore4 and Thomas Edwards Jr.5, (1)Utah State University, Logan, UT, United States, (2)University of Maryland, College Park, MD, United States, (3)Northern Arizona University, Biological Sciences, Flagstaff, AZ, United States, (4)US Geological Survey, Henderson, NV, United States, (5)US Geological Survey, Logan, United States
Abstract:
Plant phenology in arid and semi-arid ecoregions is constrained by water availability and governs the life history characteristics of primary and secondary consumers. We related the behavior, demography, and distribution of mammalian herbivores and their principal predator to remotely sensed vegetation and climatological indices across the western United States for the period 2000-2014. Across scales, terrain and topographic position moderates the effects of climatological drought on primary productivity, resulting in differential susceptibility among plant functional types to water stress. At broad scales, herbivores tie parturition to moist sites during the period of maximum increase in local forage production. Consequently, juvenile mortality is highest in regions of extreme phenological variability. Although decoupled from primary production by one or more trophic levels, carnivore home range size and density is negatively correlated to plant productivity and growing season length. At the finest scales, predation influences the behavior of herbivore prey through compromised habitat selection, in which maternal females trade nutritional benefits of high plant biomass for reduced mortality risk associated with increased visibility. Climate projections for the western United States predict warming combined with shifts in the timing and form of precipitation. Our analyses suggest that these changes will propagate through trophic levels as increased phenological variability and shifts in plant distributions, larger consumer home ranges, altered migration behavior, and generally higher volatility in wildlife populations. Combined with expansion and intensification of human land use across the region, these changes will likely have economic implications stemming from increased human-wildlife conflict (e.g., crop damage, vehicle collisions) and changes in wildlife-related tourism.