Root foraging strategies and niche segregation of three mediterranean shrub species

Author:

Cabal Ciro1234ORCID,Valladares Fernando234,Pacala Stephen W.1

Affiliation:

1. Department of Ecology and Evolutionary Biology, Princeton University Princeton NJ USA

2. Department of Biogeography and Global Change, National Museum of Natural Sciences, (MNCN‐CSIC) Madrid Spain

3. Global Change Research Institute, Rey Juan Carlos University (IICG‐URJC) Móstoles Spain

4. Department of Biology and Geology, Physics and Inorganic Chemistry, Rey Juan Carlos University (URJC) Móstoles Spain

Abstract

Shrubs are usually adapted to stressful environments in which soil resources are limited, and thus, roots are fundamental for their biological success. However, root measures are challenging to collect, especially in field conditions and at the individual level. For this study, we collected data on the three‐dimensional distribution of fine root biomass of twenty‐three individuals belonging to three shrub species in a mediterranean shrubland in central Spain: gum rockrose Cistus ladanifer, rosemary Salvia rosmarinus, and hairy‐fruited broom Cytisus striatus. Our goal was to determine the soil‐foraging strategies adopted by the plants. We hypothesized that plants would show stabilizing niche differences explaining the high plant biodiversity characteristic of mediterranean shrublands and that they would follow the game theory model's prediction of exploitative segregation of roots behaving territorially but also over‐proliferating roots close to their stem and engaging in a root tragedy of the commons. We found that two‐thirds to three‐fourths of the biomass was belowground, and the system's productivity was roughly 500–600 g C m−2 year−1. Only rosemary plants competed with neighbors following the exploitative segregation predictions. Broom plants had the shallowest and most widespread root systems but significantly reduced their root range toward competing neighbors. Gum rockrose presented deep, narrow root systems avoiding extensive overlap with neighbors but did not appear to respond to competitive pressure levels. Shrubs appeared to stratify their roots at different soil depths, supporting the niche segregation hypothesis.

Publisher

Wiley

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