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Full-Text Articles in Plant Sciences
Potential And Realized Nutrient Resorption In Serpentine And Non-Serpentine Chaparral Shrubs And Trees, Rebecca E. Drenovsky, Catherine E. Koehler, Kathryn Skelly, James H. Richards
Potential And Realized Nutrient Resorption In Serpentine And Non-Serpentine Chaparral Shrubs And Trees, Rebecca E. Drenovsky, Catherine E. Koehler, Kathryn Skelly, James H. Richards
Biology
Low-nutrient adapted species have numerous mechanisms that aid in nutrient conservation. Hypothetically, species adapted to nutrient-poor soils should have tighter internal nutrient recycling, as evidenced by greater resorption. However, literature results are mixed. We suggest methodological factors may limit our understanding of this process. We hypothesized that plants adapted to serpentine soils would be more proficient in resorbing N and P than plants adapted to non-serpentine soils, although there would be differences among functional groups within each soil type. For six growing seasons, we sampled senescent leaf tissue from the dominant and co-dominant shrubs and trees found in serpentine and …
Variation In Nutrient Resorption By Desert Shrubs, Rebecca E. Drenovsky, Jeremy J. James, James H. Richards
Variation In Nutrient Resorption By Desert Shrubs, Rebecca E. Drenovsky, Jeremy J. James, James H. Richards
Biology
Plant nutrient resorption prior to leaf senescence is an important nutrient conservation mechanism for aridland plant species. However, little is known regarding the phylogenetic and environmental factors influencing this trait. Our objective was to compare nitrogen (N) and phosphorous (P) resorption in a suite of species in the Asteraceae and Chenopodiaceae and assess the impact of soil salinity on nitrogen resorption. Although asters and chenopods did not differ in N resorption proficiency, chenopods were more proficient than asters at resorbing P. Plant responses to salinity gradients were species-specific and likely related to different salt-tolerances of the species. During the three …