Tracking wind-dispersed seeds using (15)N-isotope enrichment.

Abstract

Seed dispersal influences a wide range of ecological processes. However, measuring dispersal patterns, particularly long-distance dispersal, has been a difficult task. Marking bird-dispersed seeds with stable (15)N isotopes has been shown to be a user-friendly method to trace seed dispersal. In this study, we determined whether (15)N urea solution could be used to enrich seeds of two common wind-dispersed plants, Eupatorium glaucescens (Asteraceae) and Sericocarpus tortifolius (Asteraceae). We further tested if the water type (distilled versus tap) in (15)N urea solutions influences the level and variability of enrichment of plant seeds, and if increasing spraying frequency per se increases enrichment. Because droughts may lower seed set or kill plants, we wanted to investigate if the additional use of an externally applied anti-transpirant affects the intake of externally applied (15)N into seeds. The results demonstrate that (15)N enrichment of seeds can facilitate dispersal experiments with wind-dispersed plants. The use of distilled water in (15)N urea solutions did not increase (15)N enrichment compared to tap water. Further, enrichment was more efficient at lower spray frequencies. Both the use of tap water and low frequencies could lower time, effort and project costs. The results suggest that species can be protected from drought using an anti-transpirant without decreasing the incorporation of (15)N into seeds.