Intraspecific facilitation: a missing process along increasing stress gradients ? insights from simulated shrub populations

Malkinson, Dan; Jeltsch, Florian

doi:10.1111/j.2007.0906-7590.04983.x

Cited by 13 publications

(13 citation statements)

References 47 publications

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“…Simulation models have given similar results; patterns were largely formed by random mortality and independently of the densities of neighboring vegetation when environmental conditions were limiting ( Malkinson and Jeltsch, 2007 ). Thus, current theories based solely on models of resource competition may not hold in high-stress environments, where facili- Fig.…”

Section: Literature Citedmentioning

confidence: 88%

Merged trees in second‐growth, fire‐origin forests in Patagonia, Chile: positive spatial association patterns and their ecological implications

Fajardo

McIntire

2010

American J of Botany

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Section: Literature Citedmentioning

confidence: 88%

Merged trees in second‐growth, fire‐origin forests in Patagonia, Chile: positive spatial association patterns and their ecological implications

Fajardo

McIntire

2010

American J of Botany

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“…Similar to the competition niche axis, if the distance between two types on the facilitation axis is <NB F /2, facilitation is strong; otherwise facilitation is weak. The assumptions of this part of the model are likely unrealistic in their specifics, but there is considerable empirical evidence for positive plant–soil feedbacks (Bever 2003) and for facilitation both within species (Sommer 1992, Malkinson and Jeltsch 2007) and between species (Bruno et al 2003). The goal here was to incorporate a process that quantitatively represents in a simple way conditions that might generate a scenario in which diversity begets diversity within a single trophic level.…”

Section: Methodsmentioning

confidence: 99%

Effects of diversity on diversity: consequences of competition and facilitation

Vellend¹

2008

Oikos

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Diversity in one group of species or genotypes is often correlated with diversity in a second group Á prominent examples including native vs exotic species, and genetic diversity in a focal species vs species diversity in the rest of the community. I used simulation models to investigate the roles of competition and facilitation among species or genotypes in creating diversityÁdiversity relationships, with a focus on facilitation, which has received little theoretical attention. When competitive interactions dominate, increasing diversity in one group reduces diversity in the second group via filling of available niche space. Facilitation can create positive diversityÁdiversity relationships via a sampling effect, whereby a strong facilitator of the second group is more likely to be present as diversity increases in the first group, and also via one group acting as a source of biotic heterogeneity (i.e. diversifying selection) on the second group. However, the biotic heterogeneity effect is expected only under restricted conditions Á with asymmetric facilitation, only during a transient period, or only over a small range of species diversity levels Á and therefore seems unlikely to operate within trophic levels in natural communities. More generally, the simultaneous operation of competition and facilitation results in several different diversityÁdiversity relationships and underlying mechanisms. The results clarify the potential roles of positive and negative interactions in creating diversityÁdiversity relationships, and in determining the outcome of community dynamics in general. This study also highlights some important difficulties in incorporating facilitation into ecological theory for communities with many species.

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“…However, identifying important processes creating spatial structure in ecological populations may be challenging because numerous processes interactively shape ecological populations and we rarely know about all processes (Fortin et al 2012). Furthermore, a single process may create varying spatial structure (Pielou 1960;Powell 1990) and different processes may create similar spatial structure (Fortin and Dale 2005;Malkinson and Jeltsch 2007;Dray et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Spatial structure in invasive Alliaria petiolata reflects restricted seed dispersal

Biswas

Wagner

2015

Biol Invasions

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Identification of processes that shape the spatial structure of invasive species has important implications for understanding population regulation. In invasive Alliaria petiolata we quantified (i) spatial scale of seed dispersal under field conditions, (ii) spatial structure of rosette and adult density and (iii) the relative importance of environmental filtering, propagule pressure and adult-rosette interactions in shaping rosette and adult density. We conducted a seed dispersal experiment under field conditions; and in a three year field survey we measured quadrat-level rosette and adult density, adult seed production and soil moisture and light along transects in three A. petiolata populations at Koffler Scientific Reserve in Southern Ontario, Canada. Propagule pressure was estimated based on quadrat-level seed production and neighbourhood seed production. We found that seed dispersal of A. petiolata followed a lognormal distribution with a mean dispersal distance of 1.82 m, and that spatial structure in both adults (Moran's I: 0.30-0.56) and rosettes (0.48-0.57) was significant up to 2 m. Propagule pressure and adultrosette interactions were significant processes associated with rosette density, whereas propagule pressure was the most important process associated with adult density. However, due to the observational nature of the data, it is difficult to determine whether the observed negative association between adult and rosette density is related to competition or to temporal variation in density-dependent seed production. Overall, we conclude that spatially restricted seed dispersal is the most important factor underlying this species' patchy distributions.

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Intraspecific facilitation: a missing process along increasing stress gradients ? insights from simulated shrub populations

Cited by 13 publications

References 47 publications

Merged trees in second‐growth, fire‐origin forests in Patagonia, Chile: positive spatial association patterns and their ecological implications

Merged trees in second‐growth, fire‐origin forests in Patagonia, Chile: positive spatial association patterns and their ecological implications

Effects of diversity on diversity: consequences of competition and facilitation

Spatial structure in invasive Alliaria petiolata reflects restricted seed dispersal

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