TITLE

Replacement of Species Along Altitude Gradients: The Role of Branch Architecture

AUTHOR(S)
Rubén Milla; Luis Giménez-Benavides; Gabriel Montserrat-Martí
PUB. DATE
December 2008
SOURCE
Annals of Botany;Dec2008, Vol. 102 Issue 6, p953
SOURCE TYPE
Academic Journal
DOC. TYPE
Article
ABSTRACT
Background and aims Plant species typical of cold and warm habitats differ in a suite of morpho-physio-phenological traits, although their evolutionary routes have been poorly explored. Here, it is advocated that traits typical of different climate regimes can be largely driven by contrasting branch architectures. This is explored within Saxifraga. First, an investigation was carried out to determine whether series Ceratophyllae (lateral inflorescences) is segregated to lowlands compared with Pentadactylis (terminal inflorescences). Then, two altitudinal vicariants, S. trifurcata (lowland, with lateral inflorescences) and S. canaliculata (highland, with apical inflorescences), were selected. It was hypothesized that apical flowering of S. canaliculata constrains its growth period, bringing with it traits typical of short growth season plants, and conversely for S. trifurcata. Methods The hypothesis was tested by measuring plant compactness and organ pre-formation in seven populations of these species along an altitude gradient. Key Results Most variables differed among species. Morphological variables at all scales support that the architecture of S. canaliculata generates a more compact habit. A higher number of primordia and earlier inflorescence pre-formation in S. canaliculata indicate that it begins organogenesis earlier. Data on organogenesis suggest that the different timing of inflorescence initiation may be the origin of the contrasting architectures. Within species, shoot compactness increased, and the length of lateral primordia decreased, as altitude increased. All other metrics were similar among locations of the same species at contrasting altitudes. Conclusions The hypotheses linking elevational segregation of species, architecture and pheno-morphological traits were validated at broad (gen. Saxifraga) and local (altitudinal vicariants) scales. This supports the initial idea that shoot architecture may to a large extent condition high altitude adaptive syndrome.
ACCESSION #
35291725

 

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