Atmospheric CO2 enrichment alters energy assimilation, investment and allocation in Xanthium strumarium

Jennifer M. Nagel, Xianzhong Wang, James D. Lewis, Howard A. Fung, David T. Tissue, Kevin L. Griffin

    Research output: Contribution to journalArticle

    20 Citations (Scopus)

    Abstract

    • Energy-use efficiency and energy assimilation, investment and allocation patterns are likely to influence plant growth responses to increasing atmospheric CO2 concentration ([CO2]). Here, we describe the influence of elevated [CO2] on energetic properties as a mechanism of growth responses in Xanthium strumarium. • Individuals of X. strumarium were grown at ambient or elevated [CO2] and harvested. Total biomass and energetic construction costs (CC) of leaves, stems, roots and fruits and percentage of total biomass and energy allocated to these components were determined. Photosynthetic energy-use efficiency (PEUE) was calculated as the ratio of total energy gained via photosynthetic activity (Atotal) to leaf CC. • Elevated [CO2] increased leaf Atotal, but decreased CC per unit mass of leaves and roots. Consequently, X. strumarium individuals produced more leaf and root biomass at elevated [CO2] without increasing total energy investment in these structures (CCtotal). Whole-plant biomass was associated positively with PEUE. Whole-plant construction required 16.1% less energy than modeled whole-plant energy investment had CC not responded to increased [CO2]. • As a physiological mechanism affecting growth, altered energetic properties could positively influence productivity of X. strumarium, and potentially other species, at elevated [CO2].
    Original languageEnglish
    JournalNew Phytologist
    Publication statusPublished - 2005

    Keywords

    • Xanthium strumarium
    • biomass
    • common cocklebur
    • energy
    • photosynthesis

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