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Sampling intraspecific variability in leaf functional traits: Practical suggestions to maximize collected information. | LitMetric

AI Article Synopsis

  • The study reviews sampling strategies for capturing mean values and variability of functional traits in ecology, focusing on intraspecific variability (ITV) within individuals, which has been less studied compared to variability between individuals and populations.
  • It analyzes two foliar traits, specific leaf area (SLA) and osmotic potential (π), revealing that SLA variability is primarily found within individuals while π variability is mainly between individuals.
  • The research concludes that effective sampling requires a minimum of 5 leaves from 5 individual plants for accurate results, while optimal sampling involves gathering 4 leaves from 10 individuals, highlighting the importance of canopy structure in trait variability.

Article Abstract

The choice of the best sampling strategy to capture mean values of functional traits for a species/population, while maintaining information about traits' variability and minimizing the sampling size and effort, is an open issue in functional trait ecology. Intraspecific variability (ITV) of functional traits strongly influences sampling size and effort. However, while adequate information is available about intraspecific variability between individuals (ITV) and among populations (ITV), relatively few studies have analyzed intraspecific variability within individuals (ITV). Here, we provide an analysis of ITV of two foliar traits, namely specific leaf area (SLA) and osmotic potential (π), in a population of L. We assessed the baseline ITV level of variation between the two traits and provided the minimum and optimal sampling size in order to take into account ITV, comparing sampling optimization outputs with those previously proposed in the literature. Different factors accounted for different amount of variance of the two traits. SLA variance was mostly spread within individuals (43.4% of the total variance), while π variance was mainly spread between individuals (43.2%). Strategies that did not account for all the canopy strata produced mean values not representative of the sampled population. The minimum size to adequately capture the studied functional traits corresponded to 5 leaves taken randomly from 5 individuals, while the most accurate and feasible sampling size was 4 leaves taken randomly from 10 individuals. We demonstrate that the spatial structure of the canopy could significantly affect traits variability. Moreover, different strategies for different traits could be implemented during sampling surveys. We partially confirm sampling sizes previously proposed in the recent literature and encourage future analysis involving different traits.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5743657PMC
http://dx.doi.org/10.1002/ece3.3617DOI Listing

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