AUTHOR=Liu Xue-Yan , Koba Keisuke , Makabe Akiko , Liu Cong-Qiang TITLE=Nitrate dynamics in natural plants: insights based on the concentration and natural isotope abundances of tissue nitrate JOURNAL=Frontiers in Plant Science VOLUME=5 YEAR=2014 URL=https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2014.00355 DOI=10.3389/fpls.2014.00355 ISSN=1664-462X ABSTRACT=

The dynamics of nitrate (NO⁻₃), a major nitrogen (N) source for natural plants, has been studied mostly through experimental N addition, enzymatic assay, isotope labeling, and genetic expression. However, artificial N supply may not reasonably reflect the N strategies in natural plants because NO⁻₃ uptake and reduction may vary with external N availability. Due to abrupt application and short operation time, field N addition, and isotopic labeling hinder the elucidation of in situ NO⁻₃-use mechanisms. The concentration and natural isotopes of tissue NO⁻₃ can offer insights into the plant NO⁻₃ sources and dynamics in a natural context. Furthermore, they facilitate the exploration of plant NO⁻₃ utilization and its interaction with N pollution and ecosystem N cycles without disturbing the N pools. The present study was conducted to review the application of the denitrifier method for concentration and isotope analyses of NO⁻₃ in plants. Moreover, this study highlights the utility and advantages of these parameters in interpreting NO⁻₃ sources and dynamics in natural plants. We summarize the major sources and reduction processes of NO⁻₃ in plants, and discuss the implications of NO⁻₃ concentration in plant tissues based on existing data. Particular emphasis was laid on the regulation of soil NO⁻₃ and plant ecophysiological functions in interspecific and intra-plant NO⁻₃ variations. We introduce N and O isotope systematics of NO⁻₃ in plants and discuss the principles and feasibilities of using isotopic enrichment and fractionation factors; the correlation between concentration and isotopes (N and O isotopes: δ¹⁸O and Δ¹⁷O); and isotope mass-balance calculations to constrain sources and reduction of NO⁻₃ in possible scenarios for natural plants are deliberated. Finally, we offer a preliminary framework of intraplant δ¹⁸O-NO⁻₃ variation, and summarize the uncertainties in using tissue NO⁻₃ parameters to interpret plant NO⁻₃ utilization.