Photosynthetic responses of rewetted Nostoc flagelliforme to CO2, desiccation, light and temperature were investigated under emersed conditions in order to characterize its ecophysiological behaviour in nature. Net photosynthesis increased to a maximum rate at about 30% water loss, then decreased, while dark respiration always decreased with the progress of desiccation. Light-saturated photosynthesis and dark respiration were significantly reduced at 8 °C, but remained little affected by changes of temperature within the range of 15–35 °C. Photosynthetic efficiency (α) was maximal at the beginning of desiccation and then reduced with increased water loss. Saturating irradiance for photosynthesis was about 194–439 μmol quanta m−2 s−1, being maximal at about 30% water loss. No photoinhibition was observed at irradiances up to 1140 μmol m−2 s−1. Light compensation points were about 41–93 μmol m−2 s−1. Photosynthesis of N. flagelliforme was CO2-limited at the present atmospheric CO2 level. The CO2-saturated photosynthesis increased with increase of irradiance (190–1140 μmol m−2 s−1) and temperature (8–25 °C) and decreased significantly with water loss (0–75%). Photosynthetic affinity for CO2 was sensitive to temperature and irradiance. The CO2 compensation point (Γ) increased significantly with increased temperature and was insensitive to irradiance. Desiccation did not affect Γ values before water loss exceeded 70%. Photorespiratory CO2 release did not occur in N. flagelliforme at the current atmospheric CO2 level.

An explanation is provided of why and how one group of researchers in a Chinese village setting came to focus on what the authors call biological recycle farming. An explanation of applied agricultural research in China is provided. One conclusion reached is that application of research at the village level was largely successful because it was founded on community development principles. Another conclusion is that food production in very marginal Chinese villages can be increased significantly. While the alternative approach discussed cannot be exported wholesale to many other countries of the world, the concepts are very useful for international economic and agricultural development.