BACKGROUND AND AIMS: Alpine cushion plants can initially facilitate other species during ecological succession, but later on can be negatively affected by their development, especially when beneficiaries possess traits allowing them to overrun their host. This can be reinforced by accelerated warming favouring competitively strong species over cold-adapted cushion specialists. However, little empirical research has addressed the trait-based mechanisms of these interactions. The ecological strategies of plants colonizing the cushion plant Thylacospermum caespitosum (Caryophyllaceae), a dominant pioneer of subnival zones, were studied in the Western Himalayas. METHODS: To assess whether the cushion colonizers are phylogenetically and functionally distinct, 1668 vegetation samples were collected, both in open ground outside the cushions and inside their live and dead canopies, in two mountain ranges, Karakoram and Little Tibet. More than 50 plant traits related to growth, biomass allocation and resource acquisition were measured for target species, and the phylogenetic relationships of these species were studied [or determined]. KEY RESULTS: Species-based trait-environment analysis with phylogenetic correction showed that in both mountain ranges Thylacospermum colonizers are phylogenetically diverse but functionally similar and are functionally different from species preferring bare soil outside cushions. Successful colonizers are fast-growing, clonal graminoids and forbs, penetrating the cushion by rhizomes and stolons. They have higher root-to-shoot ratios, leaf nitrogen and phosphorus concentrations, and soil moisture and nutrient demands, sharing the syndrome of competitive species with broad elevation ranges typical of the late stages of primary succession. In contrast, the species from open ground have traits typical of stress-tolerant specialists from high and dry environments. CONCLUSION: Species colonizing tight cushions of T. caespitosum are competitively strong graminoids and herbaceous perennials from alpine grasslands. Since climate change in the Himalayas favours these species, highly specialized subnival cushion plants may face intense competition and a greater risk of decline in the future.
BACKGROUND AND AIMS: Alpine cushion plants can initially facilitate other species during ecological succession, but later on can be negatively affected by their development, especially when beneficiaries possess traits allowing them to overrun their host. This can be reinforced by accelerated warming favouring competitively strong species over cold-adapted cushion specialists. However, little empirical research has addressed the trait-based mechanisms of these interactions. The ecological strategies of plants colonizing the cushion plant Thylacospermum caespitosum (Caryophyllaceae), a dominant pioneer of subnival zones, were studied in the Western Himalayas. METHODS: To assess whether the cushion colonizers are phylogenetically and functionally distinct, 1668 vegetation samples were collected, both in open ground outside the cushions and inside their live and dead canopies, in two mountain ranges, Karakoram and Little Tibet. More than 50 plant traits related to growth, biomass allocation and resource acquisition were measured for target species, and the phylogenetic relationships of these species were studied [or determined]. KEY RESULTS: Species-based trait-environment analysis with phylogenetic correction showed that in both mountain ranges Thylacospermum colonizers are phylogenetically diverse but functionally similar and are functionally different from species preferring bare soil outside cushions. Successful colonizers are fast-growing, clonal graminoids and forbs, penetrating the cushion by rhizomes and stolons. They have higher root-to-shoot ratios, leaf nitrogen and phosphorus concentrations, and soil moisture and nutrient demands, sharing the syndrome of competitive species with broad elevation ranges typical of the late stages of primary succession. In contrast, the species from open ground have traits typical of stress-tolerant specialists from high and dry environments. CONCLUSION: Species colonizing tight cushions of T. caespitosum are competitively strong graminoids and herbaceous perennials from alpine grasslands. Since climate change in the Himalayas favours these species, highly specialized subnival cushion plants may face intense competition and a greater risk of decline in the future.
Authors: Christian Schöb; Richard Michalet; Lohengrin A Cavieres; Francisco I Pugnaire; Rob W Brooker; Bradley J Butterfield; Bradley J Cook; Zaal Kikvidze; Christopher J Lortie; Sa Xiao; Patrick Al Hayek; Fabien Anthelme; Brittany H Cranston; Mary-Carolina García; Yoann Le Bagousse-Pinguet; Anya M Reid; Peter C le Roux; Emanuele Lingua; Mawethu J Nyakatya; Blaise Touzard; Liang Zhao; Ragan M Callaway Journal: New Phytol Date: 2013-12-12 Impact factor: 10.151
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Authors: Richard Michalet; Sa Xiao; Blaise Touzard; David S Smith; Lohengrin A Cavieres; Ragan M Callaway; Thomas G Whitham Journal: Ecol Lett Date: 2011-03-02 Impact factor: 9.492
Authors: B J Butterfield; L A Cavieres; R M Callaway; B J Cook; Z Kikvidze; C J Lortie; R Michalet; F I Pugnaire; C Schöb; S Xiao; B Zaitchek; F Anthelme; R G Björk; K Dickinson; R Gavilán; R Kanka; J-P Maalouf; J Noroozi; R Parajuli; G K Phoenix; A Reid; W Ridenour; C Rixen; S Wipf; L Zhao; R W Brooker Journal: Ecol Lett Date: 2013-01-24 Impact factor: 9.492
Authors: Roey Angel; Ralf Conrad; Miroslav Dvorsky; Martin Kopecky; Milan Kotilínek; Inga Hiiesalu; Fritz Schweingruber; Jiří Doležal Journal: Microb Ecol Date: 2016-05-31 Impact factor: 4.552
Authors: Santiago Soliveres; Fernando T Maestre; Matthew A Bowker; Rubén Torices; José L Quero; Miguel García-Gómez; Omar Cabrera; Alex Cea; Daniel Coaguila; David J Eldridge; Carlos I Espinosa; Frank Hemmings; Jorge J Monerris; Matthew Tighe; Manuel Delgado-Baquerizo; Cristina Escolar; Pablo García-Palacios; Beatriz Gozalo; Victoria Ochoa; Julio Blones; Mchich Derak; Wahida Ghiloufi; Julio R Gutiérrez; Rosa M Hernández; Zouhaier Noumi Journal: Perspect Plant Ecol Evol Syst Date: 2014-08-20 Impact factor: 3.634
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