Plant clonal morphologies and spatial patterns as self-organized responses to resource-limited environments

Couteron P.; Anthelme, F; Clerc, M; Escaff, D; Fernandez-Oto, C; Tlidi, M

Abstract

We propose here to interpret and model peculiar plant morphologies (cushions and tussocks) observed in the Andean Altiplano as localized structures. Such structures resulting in a patchy, aperiodic aspect of the vegetation cover are hypothesized to self-organize thanks to the interplay between facilitation and competition processes occurring at the scale of basic plant components biologically referred to as 'ramets'. (Ramets are often of clonal origin.) To verify this interpretation, we applied a simple, fairly generic model (one integro-differential equation) emphasizing via Gaussian kernels non-local facilitative and competitive feedbacks of the vegetation biomass density on its own dynamics. We show that under realistic assumptions and parameter values relating to ramet scale, the model can reproduce some macroscopic features of the observed systems of patches and predict values for the inter-patch distance that match the distances encountered in the reference area (Sajama National Park in Bolivia). Prediction of the model can be confronted in the future with data on vegetation patterns along environmental gradients so as to anticipate the possible effect of global change on those vegetation systems experiencing constraining environmental conditions.

Más información

Título según WOS: Plant clonal morphologies and spatial patterns as self-organized responses to resource-limited environments
Título según SCOPUS: Plant clonal morphologies and spatial patterns as self-organized responses to resource-limited environments
Título de la Revista: PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES
Volumen: 372
Número: 2027
Editorial: ROYAL SOC
Fecha de publicación: 2014
Idioma: English
DOI:

10.1098/rsta.2014.0102

Notas: ISI, SCOPUS