Abstract
ABSTRACT Facilitation by nurse plants likely increases from outside the canopy to the center of the canopy as stresses decrease towards the center of the canopy. These stress gradients may be important in controlling plant distributions, with stress-tolerant species specializing outside the canopy or at the canopy edge, and stress intolerant species specializing at the center of the canopy. We tested if interactions with nurse plants control the distribution of understory species, and if plants species specializing in the understory environment experience higher physiological stress when grown outside the canopy than species specializing in the open environments. We tested these predictions in field sites in the arid environment of Saudi Arabia. We measured the environmental conditions, understory species abundance, and functional and physiological traits of species found under nurse plant Acacia gerrardii. We found that Acacia trees have an overall facilitative impact on the understory species. Species found more commonly under nurse tree canopies experience significant physiological stress when growing outside canopies. In contrast, species found more commonly outside canopies do not experience significant physiological stress when growing either under canopies or outside canopies. Our results demonstrate that differences in species ability to tolerate environmental stresses are important in structuring herbaceous plant communities under nurse plants in these extremely stressful environments.
Highlights
Positive plant–plant interactions and the balance between facilitation and competition play a vital role in plant community structure and dynamics (Hacker and Bertness 1999; Gavini et al 2019)
Plant cover and density of understory species growing under the canopies of Acacia trees was significantly higher compared with that of species growing in the exposed area outside the canopy
Leaf functional traits and traits associated with stress tolerance play a key role in the assembly of communities and the distribution of species under nurse plant canopies, and in adjacent open area habitats (Schöb et al 2012)
Summary
Positive plant–plant interactions (i.e. facilitation) and the balance between facilitation and competition play a vital role in plant community structure and dynamics (Hacker and Bertness 1999; Gavini et al 2019). Nurse plants can ameliorate environmental stress and provide an appropriate or more benign environment for neighboring typically smaller plants (see Callaway 2007). They can do this by enhancing nutrient availability in the soil Nurse plants can control the diversity and composition of plant communities in arid environments (ValienteBanuet and Verdú 2007; Al-Namazi 2019). Changing patterns of environmental stress under nurse plants can affect the types of species under these canopies, and plant communities sort themselves on these gradients of environmental stress created by nurse plants (Al-Namazi et al 2017)
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