Αποτελέσματα Αναζήτησης
10 Ιουλ 2021 · At the plant and at the canopy level and over longer time scales (days to weeks), growth often refers to biomass accumulation, resulting from the balance between carbohydrate assimilation (photosynthesis) and losses through respiration, exudation, shedding, or herbivory.
29 Σεπ 2011 · We demonstrate a variety of nonlinear models that are appropriate for modelling plant growth and, for each, show how to calculate function-derived growth rates, which allow unbiased comparisons among species at a common time or size.
24 Μαΐ 2019 · On the one hand, we explain the general mathematical principles behind mechanical growth models; on the other, we describe how modelling addresses specific problems in microscale cell wall mechanics, tip growth, morphogenesis, and stress feedback.
3 Απρ 2008 · Functional–structural (FS) plant growth models are nowadays particularly important for integrating biological processes with environmental conditions in 3-D virtual plants, and provide the basis for more advanced research in plant sciences.
10 Ιουλ 2021 · We propose a general framework to distinguish between the different facets of growth, and the corresponding physiological processes, environmental drivers and mathematical formalisms. Based on these different definitions, we then review how plant growth can be measured and analysed at different organisational, spatial and temporal scales.
13 Οκτ 2021 · To summarize, plant growth involves a coordinated process of the synthesis of membranes (both the cell membrane and the vacuolar membrane), (2) cell wall, (3) cytoplasmic materials (proteins, membranes, metabolites), and (4) vacuolar materials, along with the absorption of water.
In our paper, the term “growth model” is employed broadly, encompassing models that address both the biological aspect of growth (quantifiable changes such as biomass and yield) and the developmental aspect of plants (structural and morphological changes of the plant’s organs.
