Demography and Population Viability of an Endangered Plant Species before and after Protection from Trampling

Land managers often suggest fencing to protect rare plant species from being trampled in heavily used recreation areas, but there are few documented examples of the efficacy of this strategy. In a 7‐year demographic study we examined the reproduction, survival, and long‐term viability of the endangered sentry milk‐vetch (Astragalus cremnophylax var. cremnophylax) before and after protection from trampling. Demographic monitoring and population viability analyses indicated that the population has fluctuated during the 7 years. Before protection the population declined: 26% of individuals died, mortality surpassed natality, and age of first reproduction was significantly older than post‐protection. Fifty‐eight percent of the population was severely damaged. Population viability analyses of pre‐protection years predicted that the population would go extinct within 100 years. Since protection, the population stabilized, grew, and declined again. Seedlings reached reproductive maturity more quickly. Recruitment increased and peaked in 1993 coincident with abundant precipitation, but again declined in 1994. The total numbers of undamaged plants surpassed the numbers of damaged plants. Models of the post‐protection population predict stability. Multiple‐linear regression analysis indicated that winter and spring precipitation were significantly correlated with lambda. Both “good” and “bad” climatic conditions occurred during the pre‐ and post‐protection periods. Because of small population size and depauperate genetic diversity, climate will continue to influence population growth. Nevertheless, models indicate that where trampling and bad climatic conditions were coupled, extinction was accelerated. Recovery of sentry milk‐vetch will depend on continued protection, augmentation, and environmental factors, although risk of extinction remains very high.