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Area of Science:

  • Agricultural Science
  • Soil Microbiology
  • Ecology

Background:

  • Crop rotation is a key agricultural practice influencing soil microbial metabolism, nutrient cycling, and supply.
  • Understanding the specific effects of crop combinations on soil microbial communities is crucial for optimizing agricultural practices.

Purpose of the Study:

  • To analyze the effects of different crop rotation systems on soil properties and microbial community structure.
  • To identify the key factors driving changes in soil microbial communities under various crop rotations.

Main Methods:

  • Six distinct crop rotation systems, primarily featuring tobacco or gramineous crops as spring crops, were studied over 10 years.
  • Soil samples were analyzed for physicochemical properties, bacterial, and fungal community composition and function.

Main Results:

  • Spring crops exert a stronger influence on soil properties and microbial communities than autumn crops.
  • Soil pH and available potassium (AK) were identified as primary drivers of microbial community shifts.
  • Tobacco-based rotations resulted in soil acidification and decreased microbial diversity, with bacteria showing higher sensitivity than fungi.

Conclusions:

  • Crop rotation combinations significantly alter soil microbial communities and nutrient status.
  • Spring crops have a dominant effect, and soil bacteria are more responsive to environmental changes than fungi.
  • Tobacco rotations negatively impact soil sustainability through acidification and reduced microbial network complexity, necessitating careful consideration for sustainable agriculture.