Context Straw return is gaining popularity as a viable agricultural practice for improving soil
fertility, crop yield, and produce quality Problem However, the inconsistent assessment of …

Simple Summary Microorganisms and their enzymes are crucial to ensuring soil quality,
health, and carbon sequestration. Their numerous reactions are essential for …

Straw return can improve crop yield as well as soil organic carbon (SOC) but may raise the
possibility of N 2 O and CH 4 emissions. However, few studies have compared the effects of …

Context Crop straw is a significant byproduct of agricultural production and a rich source of
nutrients, but it is carelessly disposed of, potentially harming the environment and wasting …

Maintaining or even increasing crop yields while reducing nitrous oxide (N2O) emissions is
necessary to reconcile food security and climate change, while the metric of yield‐scaled …

Problem Facing the multiple objectives of increasing production, carbon sequestration, and
nitrogen reduction in farmland, optimizing straw and nitrogen fertilizer management to …

At room temperature, the conversion of greenhouse gases into valuable chemicals using
metal-free catalysts for dry reforming of methane (DRM) is quite promising and challenging …

Long-term fertilization can result in changes in the nitrogen (N) cycle in maize rhizosphere
soil. However, there have been few reports on the impacts of plant–soil–microbe regulatory …

Increasing crop production and soil carbon sequestration is critical for sustainable
agricultural development. Straw returning, a common agricultural practice, positively affects …

The combination of straw return and nitrogen (N) fertilization is an effective strategy for
increasing farmland productivity and improving soil structure while mitigating climate …