Root trait variation along water gradients in the Cape Floristic Region
Questions Roots are responsible for essential plant functions including water uptake. However, the extent to which root traits (size and structure) determine plant presence in water‐limited environments is still poorly understood. Here we investigated how root traits vary across water availability g...
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Published in | Journal of vegetation science Vol. 34; no. 3 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
Published |
Hoboken
Wiley Subscription Services, Inc
01.05.2023
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Subjects | |
Online Access | Get full text |
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Summary: | Questions
Roots are responsible for essential plant functions including water uptake. However, the extent to which root traits (size and structure) determine plant presence in water‐limited environments is still poorly understood. Here we investigated how root traits vary across water availability gradients within a dry South African biome.
Location
South Africa.
Methods
We measured six below‐ground (root) and eight above‐ground (leaf + stem) traits of 124 individuals of nine dominant woody shrub species from wetter and drier sites (600–700 vs 250–300 mm annual precipitation) in the Fynbos biome of the Cape Floristic Region. Within sites, we sampled from recently burnt and unburnt/more mature vegetation and at three locations along topographical gradients.
Results
Drier regions showed greater maximum rooting depth, length, root dry matter content and root to shoot ratio. These trait patterns were consistent at an intraspecific level, along locally drier topographical locations and in post‐fire environments. Roots accounted for significant whole‐plant trait variation. Additionally, in drier conditions, we found increased root allocation deviating from expected global allometric relationships. Our study also demonstrates that the combination of fire and drought in the driest locations results in poor above‐ground vegetation recovery in terms of plant size, cover and individual counts with only resprouters persisting.
Conclusions
Our research suggests that root investment in Fynbos shrubs will likely be key for coping with a drier and warmer future and should be a focus of more research for dryland biomes.
Our study uniquely shows the contribution of roots to overall trait variation across regional and local water availability gradients of dominant shrubs in the Fynbos biome of South Africa. We find preferential allocation to root investment in drier conditions, implying the importance of roots in determining whether plants can persist in a dry, drought‐ and fire‐prone biome such as Fynbos. |
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Bibliography: | Richard Michalet Co‐ordinating Editor |
ISSN: | 1100-9233 1654-1103 |
DOI: | 10.1111/jvs.13194 |