Microsite abiotic conditions and juvenile response under three early successional shrub/tree species in a SEMI‐ARID region

In environments with water and nutrient constraints, some early successional shrub/tree species may promote facilitation by ameliorating the microclimate and increasing resource availability. We ask whether early successional semi‐arid shrub/tree species have facilitation effects for other woody spe...

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Bibliographic Details
Published in:Austral ecology 2022-06, Vol.47 (4), p.841-851
Main Authors: Sales Lucas, Diego, Pereira de Oliveira, Dayana Maria, Soares, Arlete Aparecida, Churka Blum, Susana, Sgobaro Zanette, Lorenzo Roberto, Boscaini Zandavalli, Roberta
Format: Article
Language:English
Subjects:
Air temperature
Arid zones
caatinga
Canopies
Cenostigma bracteosum
Combretum leprosum
degraded areas
drought stress
Environmental conditions
Environmental stress
facilitation
Herbivores
Juveniles
Leaf area
Leaf area index
Leaves
Microclimate
Mimosa tenuiflora
Moisture content
Moisture effects
Plant species
Radiation
Resource availability
restoration ecology
Soil moisture
Soil temperature
Soil water
Solar radiation
Species richness
Water content
Water potential
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Summary:In environments with water and nutrient constraints, some early successional shrub/tree species may promote facilitation by ameliorating the microclimate and increasing resource availability. We ask whether early successional semi‐arid shrub/tree species have facilitation effects for other woody species and if they do, which mechanisms are involved and how they affect the water status of juvenile plants. Three early successional woody species; Combretum leprosum, Cenostigma bracteosum and Mimosa tenuiflora, were chosen for investigation. The richness of regenerating woody species and their leaf water potential were used as response variables, while air and soil temperature, leaf area index, humidity and soil attributes were used as explanatory environmental variables. Species growing under the canopy of C. leprosum had better water status and growth at higher soil moisture and lower thermal and solar radiation stress, receiving a facilitative effect. The lower leaf area index, higher radiation and more negative soil water content under the canopy of C. bracteosum in comparison to C. leprosum may have a small negative effect on species richness. M. tenuiflora did not reduce environmental stress, and the species associated with it had low water potential, thus no increase in species richness was detected under its canopy. C. leprosum and C. bracteosum improve the environmental conditions under their canopies and provide favourable microsites for the establishment of other species. The positive effects may be generated by functional traits that modify microclimatic characteristics under the nurse species' canopy and lead to a higher water status of the juveniles growing under it.
ISSN:1442-9985
1442-9993
DOI:10.1111/aec.13167