Abstract
Understanding potential impacts of vegetation change on caribou energetics requires information on variations in forage quality among different plant types and over time. We synthesized data on forage quality (nitrogen, neutral detergent fiber and dry matter digestibility) for 10 plant growth forms from existing scientific literature and from field research in the Arctic National Wildlife Refuge, Alaska. These data describe forage quality of plant species in habitats found within the summer and winter range of the Porcupine caribou herd in northwestern Canada and northern Alaska, U.S.A. We compared mean levels of summer forage quality among growth forms and, where possible, estimated seasonal changes in forage quality. Preferred forage groups (deciduous shrubs, forbs, and cottongrass flowers) had higher nitrogen and digestibility, and lower fiber content, than other growth forms. Nitrogen concentration in green biomass peaked at the onset of the growing season in forbs and deciduous shrubs, whereas graminoids reached peak nitrogen concentrations approximately 15-30 days after growth initiation. In vitro dry matter digestibility (IVDMD) and concentration of neutral detergent fiber (NDF) of green biomass differed among growth forms, but did not show strong seasonal changes. IVDMD and NDF concentrations were correlated with nitrogen concentrations in studies that had paired sampling.
Highlights
Identifying mechanisms that may regulate ungu¬ late populations has been an important focus of many wildlife research studies
We focused on the three variables required by the P C H energetics model (Kremsater et al, 1989): nitrogen (N), neutral detergent fiber (NDF), and in vitro dry matter digestibility (IVDMD; Van Soest, 1964; Robbins, 1983)
Rankings of forage quality based on concentrations of N, and on NDF and In vitro dry matter digestibility (IVDMD) for different growth forms generally cor¬ responded to the relative forage preference of these classes by caribou (White & Trudell, 1980b; Russell et al, 1993)
Summary
Identifying mechanisms that may regulate ungu¬ late populations has been an important focus of many wildlife research studies. A large amount of information has been collected for the Porcupine caribou herd (PCH; Russell et al, 2000). These data have been integrated into a computer model (Kremsater et al, 1989) that projects impacts of climate change and industrial development to the population level. Application of this type of model to other large caribou herds, will require tools to gener¬ ate forage quality estimates from limited data sources. Understanding how forage quality varies within the relatively well-studied range of the P C H is an initial starting point for predicting sim¬ ilar patterns in other areas
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