This report provides direct evidenc

This report provides direct evidence of decreased rice yields from
increased night temperature associated with global warming. The
physiological mechanisms that caused the observed decrease in rice
yield and the differential effect of increases in night versus day
temperature are unknown. Although the physiological effects of
extremely high temperature on rice yield are well understood (21,
22), the effects of small increases in temperature associated with
global warming are poorly understood. We know that plant maintenance
respiration increases with increasing temperature (23, 24)
and that a greater rate of maintenance respiration reduces the
amount of assimilates available for growth and yield (25). However,
reported yield reductions in maize, wheat, and soybeans under
increased night temperature cannot be fully explained by effects on
respiration (19). Plant acclimation to warmer night temperature
may explain the relatively small increase in respiration (26, 27).
Other mechanisms also may contribute to the observed yield
reduction such as differential effects of night versus day temperature
on tillering, leaf-area expansion, stem elongation, grain filling,
and crop phenological development. If so, current crop-growth
models will need further refinement to account for the differential
effects of minimum and maximum temperatures on respiration,
morphological traits, and phenological development and thus more
accurately simulate the influence of increased temperature under
climate-change scenarios (28). The results of this study highlight the
need for greater fundamental understanding of the effects of night
temperature on physiological processes governing crop growth and
yield development.