Abstract

Understanding the dynamics of ungulate populations is critical given their ecological and economic importance. In particular, the ability to evaluate the evidence for potential drivers of variation in population trajectories is important for informed management. However, the use of age ratio data (e.g., juveniles:adult females) as an index of variation in population dynamics is hindered by a lack of statistical power and difficult interpretation. Here, we show that the use of a population model based on count, classification and harvest data can dramatically improve the understanding of ungulate population dynamics by: 1) providing estimates of vital rates (e.g., per capita recruitment and population growth) that are easier to interpret and more useful to managers than age ratios and 2) increasing the power to assess potential sources of variation in key vital rates. We used a time series of elk (Cervus canadensis) spring count and classification data (2004 to 2016) and fall harvest data from hunting districts in western Montana to construct a population model to estimate vital rates and assess evidence for an association between a series of environmental covariates and indices of predator abundance on per capita recruitment rates of elk calves. Our results suggest that per capita recruitment rates were negatively associated with cold and wet springs, and severe winters, and positively associated with summer precipitation. In contrast, an analysis of the raw age ratio data failed to detect these relationships. Our approach based on a population model provided estimates of the region-wide mean per capita recruitment rate (mean = 0.25, 90% CI = 0.21, 0.29), temporal variation in hunting-district-specific recruitment rates (minimum = 0.09; 90% CI = [0.07, 0.11], maximum = 0.43; 90% CI = [0.38, 0.48]), and annual population growth rates (minimum = 0.83; 90% CI = [0.78, 0.87], maximum = 1.20; 90% CI = [1.11, 1.29]). We recommend using routinely collected population count and classification data and a population modeling approach rather than interpreting estimated age ratios as a substantial improvement in understanding population dynamics.

Highlights

  • The population dynamics of ungulates reflect complicated interactions between abiotic and biotic factors such as environmental variation, predation and harvest [1,2,3]

  • Our results demonstrate how using a population model to treat monitoring data as a timeseries of observations connected by biological processes can improve biological inference into sources of variation in vital rates, as well as provide information on population dynamics, resulting in useful information to aid management

  • A population model developed from routinely collected elk count, classification and harvest data provides information regarding recruitment, and, estimates of population growth rate

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Summary

Introduction

The population dynamics of ungulates reflect complicated interactions between abiotic and biotic factors such as environmental variation, predation and harvest [1,2,3]. Understanding the relative influence of each of these factors on population dynamics is critical given the pivotal role of ungulates in ecosystems [4] and concerns about declines in multiple ungulate populations [5,6,7]. Juvenile survival can have a large impact on population growth rates when interannual variation is large [18,19,20]. Juvenile survival is commonly monitored and used as an index of population performance. Juvenile survival varies annually, and causes of mortality differ widely across ecosystems [19,21], making it difficult to understand and generalize conclusions about sources of variation in juvenile survival

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