@article{qiu_israel_1992, title={DIURNAL STARCH ACCUMULATION AND UTILIZATION IN PHOSPHORUS-DEFICIENT SOYBEAN PLANTS}, volume={98}, ISSN={["0032-0889"]}, DOI={10.1104/pp.98.1.316}, abstractNote={The effects of phosphorus deficiency on carbohydrate accumulation and utilization in 34-day-old soybean (Glycine max L. Merr.) plants were characterized over a diurnal cycle to evaluate the mechanisms by which phosphorus deficiency restricts plant growth. Phosphorus deficiency decreased the net CO(2) exchange rate throughout the light period. The decrease in the CO(2) exhange rate was associated with a decrease in stomatal conductance and an increase in the internal CO(2) concentration. These observations indicate that phosphorus deficiency increased mesophyll resistance. Assimilate export rate from the youngest fully expanded leaves was decreased by phosphorus deficiency, whereas starch concentrations in these leaves were increased. Higher starch concentrations in phosphorus-deficient youngest fully expanded leaves resulted from a longer period of net starch accumulation and a shorter period of net starch degradation relative to those for phosphorus-sufficient controls. Phosphorus deficiency decreased sucrose-P synthase activity by 27% (averaged over the diurnal cycle), and essentially eliminated diurnal variation in sucrose-P-synthase activity. Diurnal variations in nonstructural carbohydrate concentrations in leaves and stems were also less pronounced in phosphorus-deficient plants than in controls. In phosphorus-deficient plants, only 30% of the whole plant starch present at the end of a light phase was utilized during the subsequent 12-hour dark phase as compared with 68% for phosphorus-sufficient controls. Although phosphorus deficiency decreased the CO(2) exchange rate and whole plant leaf area, accumulation of high starch concentrations in leaves and stems and restricted starch utilization in the dark indicate that growth processes (i.e. sink activities) were restricted to a greater extent than photosynthetic capacity. Further experimentation is required to determine whether decreased starch utilization in phosphorus-deficient plants is the cause or the result of restricted growth.}, number={1}, journal={PLANT PHYSIOLOGY}, author={QIU, JS and ISRAEL, DW}, year={1992}, month={Jan}, pages={316–323} }
 @article{qui_1991, title={Effects of phosphorus deficiency on carbon and nitrogen assimilation and utilization in whole soybean plants}, volume={51}, number={12}, journal={Dissertation Abstracts International. B, Sciences and Engineering}, author={Qui, J. S.}, year={1991}, pages={5680} }