Analyzing the Spatial Structure of a Sri Lankan Tree Species With Multiple Scales of Clustering

Wiegand, Thorsten; Gunatilleke, Savitri; Gunatilleke, Nimal; Okuda, Toshinori

doi:10.1890/06-1350.1

Cited by 197 publications

(256 citation statements)

References 33 publications

(49 reference statements)

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“…Ecologists have argued for the importance of incorporation of spatial scales into the study of ecological processes which underlie spatial patterns because different biological processes may operate at distinguishing spatial scales (Borcard and Legendre 2002;Chase and Leibold 2002;Wiegand et al 2007). Our results support this argument.…”

Section: Discussionmentioning

confidence: 99%

Intraspecific interactions shift from competitive to facilitative across a low to high disturbance gradient in a salt marsh

Zhang

Wang

2016

Plant Ecol

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Disturbances are ubiquitous among salt marshes, and disturbances such as litter removal may form stressful environmental conditions. The stressgradient hypothesis (SGH) predicts that the relative importance of facilitation and competition between species will vary inversely to each other across abiotic stress gradients. However, how intraspecific interactions vary across disturbance levels, and whether they follow the SGH has not been investigated. To test the SGH with intraspecific interactions within Suaeda salsa individuals, we assessed individual survival in established fully mapped salt marsh plots with two treatments, disturbed, litter removal and control, undisturbed plots. Recently developed spatial statistics were applied to distinguish between random processes, intraspecific facilitation, scramble competition, and contest competition underlying the spatial patterns at different spatial scales, growth stages, and disturbance levels. We found evidence that intraspecific interactions among S. salsa individuals across disturbance levels tended to support the SGH, but this support depended on time and space. Intraspecific interactions were more likely to show positive density dependence in disturbed plots, particularly at the seedling period and when individuals were separated by\9 cm. However, positive density dependence was not detected in undisturbed plots. The protective effects of litter on seedlings, which were lost in undisturbed sites, may have been at least partly simulated at high seedling densities. Mortality in disturbed sites was not random, and facilitation had a more important influence than competition on population dynamics in high disturbance sites. However, the influence of competition on population dynamics, specifically scramble competition was also clearly important.

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Section: Discussionmentioning

confidence: 99%

Intraspecific interactions shift from competitive to facilitative across a low to high disturbance gradient in a salt marsh

Zhang

Wang

2016

Plant Ecol

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“…Point pattern analysis can help to identify different proximate mechanisms of seed aggregation and to quantify the overall spatial pattern of the seed rain at a range of spatial scales. Thus, a first level of seed aggregation can be quantified by fitting cluster processes (Wiegand et al 2007(Wiegand et al , 2009) to the observed distribution pattern of frugivore regurgitate or fecal samples. However, aggregation of such samples consisting of seeds is not the only potential mechanism of spatially contagious seed dispersal.…”

Section: Introductionmentioning

confidence: 99%

Hierarchical mechanisms of spatially contagious seed dispersal in complex seed‐disperser networks

Fedriani¹,

Wiegand²

2014

Ecology

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Abstract. Intra-and interspecific spatially contagious seed dispersal has far-reaching implications for plant recruitment, distribution, and community assemblage. However, logistical and analytical limitations have curtailed our understanding concerning the mechanisms and resulting spatial patterns of contagious seed dispersal in most systems and, especially, in complex seed-disperser networks. We investigated mechanisms of seed aggregation using techniques of spatial point pattern analysis and extensive data sets on mutispecific endozoochorous seed rain generated by five frugivorous mammals in three Mediterranean shrublands over two seasons. Our novel analytical approach revealed three hierarchical and complementary mechanisms of seed aggregation acting at different levels (fecal samples, seeds, pairs of seed species) and spatial scales. First, the three local guilds of frugivores tended to deliver their feces highly aggregated at small and intermediate spatial scales, and the overall pattern of fecal delivery could be described well by a nested doublecluster Thomas process. Second, once the strong observed fecal aggregation was accounted for, the distribution of mammal feces containing seeds was clustered within the pattern of all feces (i.e., with and without seeds), and the density of fecal samples containing seeds was higher than expected around other feces containing seeds in two out of the three studied seeddisperser networks. Finally, at a finer level, mark correlation analyses revealed that for some plant species pairs, the number of dispersed seeds was positively associated either at small or large spatial scales. Despite the relatively invariant patterning of nested double-clustering, some attributes of endozoochorous seed rain (e.g., intensity, scales of aggregation) were variable among study sites due to changes in the ecological context in which seeds and their dispersers interact. Our investigation disentangles for the first time the hierarchy of synergic mechanisms of spatially contagious seed dispersal at a range of spatial scales in complex seeddisperser networks, thus providing a robust and widely applicable framework for future studies.

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“…To quantify the effect of landscape structure on the number of steps taken, we used the O-ring statistic, which has been widely used to quantitatively capture the impact of changes in landscape structure on the spatial dynamics of plant and animal species 13 (Bruggeman et al 2010;Wiegand et al 2007;Wiegand et al 1999). The O-ring measures the probability that a habitat cell is located at a distance r from another habitat cell, thus 280 providing a measure of the degree of habitat clustering.…”

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confidence: 99%

The consequences of interactions between dispersal distance and resolution of habitat clustering for dispersal success

2013

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Abstract:Habitat clustering results from processes of habitat loss and fragmentation, which operate at different resolutions and with different intensities e.g. forest clear-cutting or thinning. Individual movements also vary at different spatial scales according to landscape structure and species dispersal strategies. Disentangling the relative impact of habitat loss and fragmentation on the long-term survival of species requires understanding how clustering at one resolution interacts with the amount of habitat, dispersal distance and clustering at other resolutions, to affect dispersal success. We addressed this problem by quantifying the magnitude of these interactions and how they were affected by the intensity of habitat removal. Individual-based simulations were conducted on artificial fractal landscapes where the intensity of habitat removal and the amount of clustering were varied independently at two nested resolutions, while the total amount of habitat in the landscape was controlled for. We show that the way the amount of habitat, the dispersal distance and the amount of clustering affect dispersal success depends on the resolution at which habitat clustering occurs, the intensity at which habitat is removed, and the strength of habitat selection. Our findings highlight: a) the importance of explicitly considering scale-dependent biological responses to landscape change; and b) the need to identify the appropriate scale at which to manage fragmentation, thus avoiding mismatches between the scale of ecological processes and the scale of management. Powered by Editorial Manager® and Preprint Manager® from Aries Systems Corporationclustering for dispersal success." The two reviewers provide a somewhat contrasting evaluation of your manuscript. Reviewer 1 found the comments well accommodated and has only a few minor suggestions. Reviewer 2 again provided an unusually detailed review of you manuscript. The reviewer appreciates the substantial improvements in the manuscript and provides many constructive comments and suggestions; however, the main criticism of this reviewer still persists and must be addressed.I appreciate your willingness to send me a summary of your results that finally allowed me to test my hypothesis on the influence of landscape structure, captured by O11(r), on your model output (i.e., the number of steps). Please look at attachments to download the file LAND-D-12-03315R1_Data_towi2.xls. My preliminary analysis showed that a single summary statistic, such as the OGG(r) is indeed able to capture the interactions between different factors for a given species profile (i.e., defined by the parameter dd and biased vs. unbiased random walk). As a consequence, the way you present your results must be substantially changed. This is in line with the evaluation of reviewer 2 that made it clear that the attempt present your results based on the parameters of the landscape generator were not very successful. I provide more detail in my additional comments below. You may also contact me directly...

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Analyzing the Spatial Structure of a Sri Lankan Tree Species With Multiple Scales of Clustering

Cited by 197 publications

References 33 publications

Intraspecific interactions shift from competitive to facilitative across a low to high disturbance gradient in a salt marsh

Intraspecific interactions shift from competitive to facilitative across a low to high disturbance gradient in a salt marsh

Hierarchical mechanisms of spatially contagious seed dispersal in complex seed‐disperser networks

The consequences of interactions between dispersal distance and resolution of habitat clustering for dispersal success

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