Deciding When and Where to Grow
Summary
This literature review discusses the intricate relationship between carbon (C) and
nitrogen (N) in vascular plants. In order to grow and reproduce optimally, plants must
maintain an internal balance between C and N while responding to changes in
external availability. Although the C and N metabolic pathways are individually
well-studied, mechanisms for regulating C and N levels are complex and
multi-levelled, and several important details regarding how the C/N pathways interact
to maintain balance are still unclear. This review examines how different fields in
biology view the problem of resource allocation such as evolutionary biology,
developmental biology and biophysics, using representative examples to show the
strengths and weaknesses of each perspective. Furthermore, we highlight some key
questions to be answered by each field to form a unifying picture of the system as a
whole. The review concludes by suggesting that a combined approach is needed to
inform future models, and gives some suggestions on what aspects of current
perspectives present useful properties to be considered for such models. Special
emphasis is given to the interpretation of signals, and a need for deeper inquiry into
how a signalling molecule’s spatiotemporal dynamics and functional involvement in
the C/N metabolic pathway can affect the potential information it carries to inform
regulation processes.