Abstract The Free Air CO 2 Enrichment (FACE) facility enables the study of plant responses
to climate change under open field conditions. This meta-analysis was conducted to …

Abstract The Free Air CO 2 Enrichment (FACE) facility simulates future high CO 2
environment in an open field, and is considered the best approach to assess the actual …

To provide a theoretical basis for further research on improving nitrogen absorption and
utilization efficiency, in this study we investigated the effects of nitrogen fertilization on the …

Evaluating the impact of climate change factors, especially temperature and carbon dioxide
(CO 2), on rice yield is essential to ensure future food security. Because of the wide …

Rising atmospheric CO2 generally increases yield of indica rice, one of the two main Asian
cultivated rice subspecies, more strongly than japonica rice, the other main subspecies. The …

Increasing ozone concentrations cause rice yield loss in many polluted regions, it renders
the use of ozone-tolerant rice cultivars to mitigate its negative effects. To evaluate the …

Scientific evidence indicates that elevated atmospheric CO2 concentrations (e [CO2]) have a
significant impact on rice production. Further systematic exploration is necessary to …

Panicle of rice inflorescence is the topmost organ of the plant borne on the last internode. It
is composed of primary ramifications (primary branches) which carry secondary branches …

Elevated CO 2 increases rice yields, and the response level varies across locations and
genotypes. Previous analyses of genotypic variations from diverse Free-Air CO 2 …

Panicle structure and grain shape are important components of rice architecture that directly
contribute to rice yield and are regulated by quantitative trait loci (QTLs). In this study, a …