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Climatic regeneration niche of an invasive species (Ulex europaseus,L)assessed by a reciprocal transplant experiment along an altitudinal gradient

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Academic year: 2021

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Biological Invasions

Climatic regeneration niche of an invasive

species (

, L.) assessed by a

reciprocal transplant experiment along an

altitudinal gradient

Zaira Negrin Perez

1

, Mathias Christina

2

, S´

ebastien Delmotte

3

, C´

eline Gire

4

, Sylvie

Niollet

5

, Jose Ramon Arevalo Sierra

1

, Mark Bakker

4

,

Maya Gonzalez

4

1 Universidad de La Laguna (ULL) – Spain

2 CIRAD (cirad) – Centre de coop´eration internationale en recherche agronomique pour le d´eveloppement [CIRAD] – France

3 MAD-environnement (MADE) – France

4 Institut national de la recherche agronomique (INRA) – France 5 Institut de la Recherche Agronomique (INRA) – France

Biological invasion is an important component of global change, as invading species can alter the biodiversity and functioning of ecosystems. For the efficient allocation of management of invasive species, we need to understand why these species succeed in becoming established, and which factors limit or prevent them.

Assessing the climatic niche of invasive species is a first step to predict species invasion at regional scale.

Reciprocal transplant experiments according to altitudinal gradients have been used to investigate the limits of climatic range tolerance of invasive plant species, and to detect local adaptation and phenotypic plasticity.

As a species model we used gorse (Ulex europaeus, L.), one of the most invasive plant species in the world outside its native European range.

We studied the survival and the relative growth rate (RGR) of gorse seedlings from populations of both native (France and Spain) and invasive (New Zealand, Tenerife -Canary islands- and Reunion island) origins.

To accomplish this, we set up a reciprocal transplant experiment with seedlings from all these regions, one in a native area (Asturias) and another in an invasive area (Tenerife). For each transplant experiment 4 common gardens were installed along an altitudinal gradient: 100, 400, 800 and 1100 meters above sea level with four blocks in each site. Growth and mortality measures were taken monthly. The same experimental design was set up in Tenerife (779

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