Strategies of leaf water uptake based on anatomical traits

The ability of leaves to absorb fog water can positively contribute to the water and carbon balance of plants in montane ecosystems, especially in periods of soil water deficit. However, the ecophysiological traits and mechanisms responsible for variations in the speed and total water absorption cap...

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Bibliographic Details
Published in:Plant biology (Stuttgart, Germany) Germany), 2018-09, Vol.20 (5), p.848-856
Main Authors: Boanares, D, Isaias, R R M S, de Sousa, H C, Kozovits, A R
Format: Article
Language:English
Subjects:
Absorption
Access routes
Altitude
Asteraceae - anatomy & histology
Asteraceae - metabolism
Cuticles
Ecosystem
Environmental conditions
Fabaceae - anatomy & histology
Fabaceae - metabolism
Fluorescence
Fog
Forest ecosystems
Leaves
Malpighiaceae - anatomy & histology
Malpighiaceae - metabolism
Melastomataceae - anatomy & histology
Melastomataceae - metabolism
Moisture content
Montane environments
Myrtaceae - anatomy & histology
Myrtaceae - metabolism
Ochnaceae - anatomy & histology
Ochnaceae - metabolism
Plant Leaves - anatomy & histology
Plant Leaves - metabolism
Soil water
Spatial variations
Species
Storage capacity
Trichomes
Tropical forests
Variation
Visual observation
Water - metabolism
Water absorption
Water availability
Water deficit
Water uptake
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Summary:The ability of leaves to absorb fog water can positively contribute to the water and carbon balance of plants in montane ecosystems, especially in periods of soil water deficit. However, the ecophysiological traits and mechanisms responsible for variations in the speed and total water absorption capacity of leaves are still poorly known. This study investigated leaf anatomical attributes of seven species occurring in seasonal tropical high-altitude ecosystems (rocky outcrop and forest), which could explain differences in leaf water uptake (LWU) capacities. We tested the hypothesis that different sets of anatomical leaf attributes will be more marked in plant individuals living under these contrasting environmental conditions. Anatomical variations will affect the initial rate of water absorption and the total storage capacity, resulting in different strategies for using the water supplied by fog events. Water absorption by leaves was inferred indirectly, based on leaf anatomical structure and visual observation of the main access routes (using an apoplastic marker), the diffusion of water through the cuticle, and non-glandular or glandular trichomes in all species. The results suggest that three LWU strategies coexist in the species studied. The different anatomical patterns influenced the speed and maximum LWU capacity. The three LWU strategies can provide different adaptive advantages to adjust to temporal and spatial variations of water availability in these tropical high-altitude environments.
ISSN:1435-8603
1438-8677
DOI:10.1111/plb.12832