study of ammonifications
氨化研究
biological ammonifications
生物氨化
the industrial processes can lead to significant ammonifications in the environment.
工业过程可能会导致环境中大量的氨化作用。
excessive ammonifications can negatively impact aquatic ecosystems.
过度的氨化会对水生生态系统造成负面影响。
researchers are studying the effects of ammonifications on soil fertility.
研究人员正在研究氨化作用对土壤肥力的影响。
the nitrogen cycle involves various processes, including ammonifications.
氮循环包括多种过程,其中包括氨化作用。
ammonifications are a key step in the conversion of organic matter into usable forms.
氨化是将有机物转化为可利用形式的关键步骤。
understanding ammonifications is crucial for sustainable agriculture.
了解氨化作用对于可持续农业至关重要。
ammonification rates can vary depending on environmental factors.
氨化速率会因环境因素而异。
microorganisms play a vital role in the process of ammonifications.
微生物在氨化过程中起着至关重要的作用。
ammonifications can contribute to nutrient cycling in ecosystems.
氨化作用可以促进生态系统中的养分循环。
excessive ammonifications can lead to water pollution.
过度的氨化会导致水污染。
study of ammonifications
氨化研究
biological ammonifications
生物氨化
the industrial processes can lead to significant ammonifications in the environment.
工业过程可能会导致环境中大量的氨化作用。
excessive ammonifications can negatively impact aquatic ecosystems.
过度的氨化会对水生生态系统造成负面影响。
researchers are studying the effects of ammonifications on soil fertility.
研究人员正在研究氨化作用对土壤肥力的影响。
the nitrogen cycle involves various processes, including ammonifications.
氮循环包括多种过程,其中包括氨化作用。
ammonifications are a key step in the conversion of organic matter into usable forms.
氨化是将有机物转化为可利用形式的关键步骤。
understanding ammonifications is crucial for sustainable agriculture.
了解氨化作用对于可持续农业至关重要。
ammonification rates can vary depending on environmental factors.
氨化速率会因环境因素而异。
microorganisms play a vital role in the process of ammonifications.
微生物在氨化过程中起着至关重要的作用。
ammonifications can contribute to nutrient cycling in ecosystems.
氨化作用可以促进生态系统中的养分循环。
excessive ammonifications can lead to water pollution.
过度的氨化会导致水污染。
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