Quantifying ecological memory in plant and ecosystem processes

Kiona Ogle, Jarrett J. Barber, Greg A. Barron-Gafford, Lisa Patrick Bentley, Jessica M. Young, Travis E. Huxman, Michael E. Loik, David T. Tissue

    Research output: Contribution to journalArticlepeer-review

    Abstract

    The role of time in ecology has a long history of investigation, but ecologists have largely restricted their attention to the influence of concurrent abiotic conditions on rates and magnitudes of important ecological processes. Recently, however, ecologists have improved their understanding of ecological processes by explicitly considering the effects of antecedent conditions. To broadly help in studying the role of time, we evaluate the length, temporal pattern, and strength of memory with respect to the influence of antecedent conditions on current ecological dynamics. We developed the stochastic antecedent modelling (SAM) framework as a flexible analytic approach for evaluating exogenous and endogenous process components of memory in a system of interest. We designed SAM to be useful in revealing novel insights promoting further study, illustrated in four examples with different degrees of complexity and varying time scales: stomatal conductance, soil respiration, ecosystem productivity, and tree growth. Models with antecedent effects explained an additional 18-28% of response variation compared to models without antecedent effects. Moreover, SAM also enabled identification of potential mechanisms that underlie components of memory, thus revealing temporal properties that are not apparent from traditional treatments of ecological time-series data and facilitating new hypothesis generation and additional research.
    Original languageEnglish
    Pages (from-to)221-235
    Number of pages15
    JournalEcology Letters
    Volume18
    Issue number3
    DOIs
    Publication statusPublished - 2015

    Keywords

    • antecedent conditions
    • ecosystems
    • growth (plants)
    • soil respiration
    • stomatal conductance
    • time-series analysis

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