BACKGROUND: Cushion plants are commonly considered as keystone nurse species that ameliorate the harsh conditions they inhabit in alpine ecosystems, thus facilitating other species and increasing alpine plant biodiversity. A literature search resulted in 25 key studies showing overwhelming facilitative effects of different cushion plants and hypothesizing greater facilitation with increased environmental severity (i.e. higher altitude and/or lower rainfall). At the same time, emerging ecological theory alongside the cushion-specific literature suggests that facilitation might not always occur under extreme environmental conditions, and especially under high altitude and dryness. METHODS: To assess these hypotheses, possible nursing effects of Thylacospermum caespitosum (Caryophyllaceae) were examined at extremely high altitude (5900 m a.s.l.) and in dry conditions (precipitation <100 mm year(-1)) in Eastern Ladakh, Trans-Himalaya. This is, by far, the highest site, and the second driest, at which the effects of cushions have been studied so far. KEY RESULTS: In accordance with the theoretical predictions, no nursing effects of T. caespitosum on other alpine plants were detected. The number and abundance of species were greater outside cushions than within and on the edge of cushions. None of the 13 species detected was positively associated with cushions, while nine of them were negatively associated. Plant diversity increased with the size of the area sampled outside cushions, but no species-area relationship was found within cushions. CONCLUSIONS: The results support the emerging theoretical prediction of restricted facilitative effects under extreme combinations of cold and dryness, integrating these ideas in the context of the ecology of cushion plants. This evidence suggests that cases of missing strong facilitation are likely to be found in other extreme alpine conditions.
BACKGROUND: Cushion plants are commonly considered as keystone nurse species that ameliorate the harsh conditions they inhabit in alpine ecosystems, thus facilitating other species and increasing alpine plant biodiversity. A literature search resulted in 25 key studies showing overwhelming facilitative effects of different cushion plants and hypothesizing greater facilitation with increased environmental severity (i.e. higher altitude and/or lower rainfall). At the same time, emerging ecological theory alongside the cushion-specific literature suggests that facilitation might not always occur under extreme environmental conditions, and especially under high altitude and dryness. METHODS: To assess these hypotheses, possible nursing effects of Thylacospermum caespitosum (Caryophyllaceae) were examined at extremely high altitude (5900 m a.s.l.) and in dry conditions (precipitation <100 mm year(-1)) in Eastern Ladakh, Trans-Himalaya. This is, by far, the highest site, and the second driest, at which the effects of cushions have been studied so far. KEY RESULTS: In accordance with the theoretical predictions, no nursing effects of T. caespitosum on other alpine plants were detected. The number and abundance of species were greater outside cushions than within and on the edge of cushions. None of the 13 species detected was positively associated with cushions, while nine of them were negatively associated. Plant diversity increased with the size of the area sampled outside cushions, but no species-area relationship was found within cushions. CONCLUSIONS: The results support the emerging theoretical prediction of restricted facilitative effects under extreme combinations of cold and dryness, integrating these ideas in the context of the ecology of cushion plants. This evidence suggests that cases of missing strong facilitation are likely to be found in other extreme alpine conditions.
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: Richard Michalet; Robin W Brooker; Lohengrin A Cavieres; Zaal Kikvidze; Christopher J Lortie; Francisco I Pugnaire; Alfonso Valiente-Banuet; Ragan M Callaway Journal: Ecol Lett Date: 2006-07 Impact factor: 9.492
Authors: Lohengrin A Cavieres; Ernesto I Badano; Angela Sierra-Almeida; Susana Gómez-González; Marco A Molina-Montenegro Journal: New Phytol Date: 2006 Impact factor: 10.151
Authors: Jiri Dolezal; Miroslav Dvorsky; Martin Kopecky; Jan Altman; Ondrej Mudrak; Katerina Capkova; Klara Rehakova; Martin Macek; Pierre Liancourt Journal: Ann Bot Date: 2019-03-14 Impact factor: 4.357
Authors: Miroslav Dvorský; Jiří Doležal; Martin Kopecký; Zuzana Chlumská; Kateřina Janatková; Jan Altman; Francesco de Bello; Klára Řeháková Journal: PLoS One Date: 2013-01-10 Impact factor: 3.240