Rice–wheat rotation (RWR) is one of the major cropping systems in China and plays a
crucial role in the country's food security. With the promotion of “burn ban” and “straw return” …

Straw returning usually gives rise to greenhouse gas (GHG) emissions from the soil, and
thus negatively affects carbon footprint (CF) of crop production. Numerous studies reported …

Objectives The middle and lower reaches of the Yangtze river are important rice–wheat
rotation areas in China, due to great contribution to national food security. Crop production is …

The rice-wheat rotation system is an important planting system in the middle and lower
reaches of the Yangtze River. Studies on the effects of different rice planting methods on the …

This study provided an insight into a complete green house gases (GHG) accounting of
global warming potential (GWP) as affected by water regime in typical double rice-cropping …

Background Evaluating the net exchange of greenhouse gas (GHG) emissions in
conjunction with soil carbon sequestration may give a comprehensive insight on the role of …

Straw retention is a widely used method in rice planting areas throughout China. However,
the combined influences of straw retention and nitrogen (N) fertilizer application on …

Crop straw is the largest renewable resource on earth but it is often burned after crop
harvest, resulting in loss of nutrients and environmental pollution. With current advocate for …

The rice–wheat rotation model of crop planting is widely used globally, and worldwide, straw
returning is the main method of crop straw treatment. However, the straw return method …

In recent years, many rotational and integrated rice production systems coupled with several
greenhouse gas (GHG) emissions mitigation practices have been developed and adopted …