Gesine Pufal1, Phil Garnock-Jones. 1. School of Biological Sciences, Victoria University of Wellington, Wellington 6140, New Zealand. gesine.pufal@vuw.ac.nz
Abstract
BACKGROUND AND AIMS: Hygrochasy is a capsule-opening mechanism predominantly associated with plants in arid habitats, where it facilitates spatially and temporally restricted dispersal. Recently, hygrochastic capsules were described in detail for the first time in alpine Veronica in New Zealand. The aim of the present study was to investigate whether hygrochastic capsules are an adaptation of alpine Veronica to achieve directed dispersal to safe sites. We expect that by limiting dispersal to rainfall events, distances travelled by seeds are short and confine them to small habitat patches where both seedlings and adults have a greater chance of survival. METHODS: Dispersal distances of five hygrochastic Veronica were measured under laboratory and field conditions and the seed shadow was analysed. Habitat patch size of hygrochastic Veronica and related non-hygrochastic species were estimated and compared. KEY RESULTS: Dispersal distances achieved by dispersal with raindrops did not exceed 1 m but weather conditions could influence the even distribution of seeds around the parent plant. Compared with related Veronica species, hygrochastic Veronica mostly grow in small, restricted habitat patches surrounded by distinctly different habitats. These habitat patches provide safe sites for seeds due to their microtopography and occurrence of adult cushion plants. Non-hygrochastic Veronica can be predominantly found in large habitats without clearly defined borders and can be spread over long distances along rivers. CONCLUSIONS: The results suggest that hygrochasy is a very effective mechanism of restricting seed dispersal to rainfall events and ensuring short-distance dispersal within a small habitat patch. It appears that it is an adaptation for directed dispersal to safe sites that only exist within the parent habitat.
BACKGROUND AND AIMS: Hygrochasy is a capsule-opening mechanism predominantly associated with plants in arid habitats, where it facilitates spatially and temporally restricted dispersal. Recently, hygrochastic capsules were described in detail for the first time in alpine Veronica in New Zealand. The aim of the present study was to investigate whether hygrochastic capsules are an adaptation of alpine Veronica to achieve directed dispersal to safe sites. We expect that by limiting dispersal to rainfall events, distances travelled by seeds are short and confine them to small habitat patches where both seedlings and adults have a greater chance of survival. METHODS: Dispersal distances of five hygrochastic Veronica were measured under laboratory and field conditions and the seed shadow was analysed. Habitat patch size of hygrochastic Veronica and related non-hygrochastic species were estimated and compared. KEY RESULTS: Dispersal distances achieved by dispersal with raindrops did not exceed 1 m but weather conditions could influence the even distribution of seeds around the parent plant. Compared with related Veronica species, hygrochastic Veronica mostly grow in small, restricted habitat patches surrounded by distinctly different habitats. These habitat patches provide safe sites for seeds due to their microtopography and occurrence of adult cushion plants. Non-hygrochastic Veronica can be predominantly found in large habitats without clearly defined borders and can be spread over long distances along rivers. CONCLUSIONS: The results suggest that hygrochasy is a very effective mechanism of restricting seed dispersal to rainfall events and ensuring short-distance dispersal within a small habitat patch. It appears that it is an adaptation for directed dispersal to safe sites that only exist within the parent habitat.
Authors: Ragan M Callaway; R W Brooker; Philippe Choler; Zaal Kikvidze; Christopher J Lortie; Richard Michalet; Leonardo Paolini; Francisco I Pugnaire; Beth Newingham; Erik T Aschehoug; Cristina Armas; David Kikodze; Bradley J Cook Journal: Nature Date: 2002-06-20 Impact factor: 49.962
Authors: Teresa Lenser; Kai Graeber; Özge Selin Cevik; Nezaket Adigüzel; Ali A Dönmez; Christopher Grosche; Marcel Kettermann; Sara Mayland-Quellhorst; Zsuzsanna Mérai; Setareh Mohammadin; Thu-Phuong Nguyen; Florian Rümpler; Christina Schulze; Katja Sperber; Tina Steinbrecher; Nils Wiegand; Miroslav Strnad; Ortrun Mittelsten Scheid; Stefan A Rensing; Michael Eric Schranz; Günter Theißen; Klaus Mummenhoff; Gerhard Leubner-Metzger Journal: Plant Physiol Date: 2016-10-04 Impact factor: 8.340