ammonification process
氨化過程
ammonification rate
氨化速率
nitrogen ammonification
氮氨化
study of ammonification
氨化研究
importance of ammonification
氨化的重要性
biological ammonification
生物氨化
ammonification in ecosystems
生態系統中的氨化
factors affecting ammonification
影響氨化的因素
ammonification and decomposition
氨化與分解
the process of ammonification is essential for nutrient cycling in ecosystems.
氨化過程對於生態系統中的養分循環至關重要。
ammonification converts organic nitrogen into ammonia, which plants can readily absorb.
氨化將有機氮轉化爲植物易吸收的氨。
microorganisms play a key role in the ammonification process.
微生物在氨化過程中起着關鍵作用。
ammonification is influenced by factors such as temperature and moisture.
溫度和溼度等因素會影響氨化過程。
the rate of ammonification can vary depending on the type of organic matter.
氨化的速率取決於有機物的類型而異。
understanding ammonification is crucial for sustainable agriculture.
瞭解氨化對可持續農業至關重要。
ammonification contributes to the overall nitrogen budget of an ecosystem.
氨化有助於生態系統的整體氮預算。
disruptions to ammonification can have negative impacts on soil fertility.
對氨化的干擾會對土壤肥力產生負面影響。
research continues to explore the complexities of ammonification in different environments.
研究仍在探索不同環境中氨化過程的複雜性。
ammonification is a fundamental process within the global nitrogen cycle.
氨化是全球氮循環中的基本過程。
ammonification process
氨化過程
ammonification rate
氨化速率
nitrogen ammonification
氮氨化
study of ammonification
氨化研究
importance of ammonification
氨化的重要性
biological ammonification
生物氨化
ammonification in ecosystems
生態系統中的氨化
factors affecting ammonification
影響氨化的因素
ammonification and decomposition
氨化與分解
the process of ammonification is essential for nutrient cycling in ecosystems.
氨化過程對於生態系統中的養分循環至關重要。
ammonification converts organic nitrogen into ammonia, which plants can readily absorb.
氨化將有機氮轉化爲植物易吸收的氨。
microorganisms play a key role in the ammonification process.
微生物在氨化過程中起着關鍵作用。
ammonification is influenced by factors such as temperature and moisture.
溫度和溼度等因素會影響氨化過程。
the rate of ammonification can vary depending on the type of organic matter.
氨化的速率取決於有機物的類型而異。
understanding ammonification is crucial for sustainable agriculture.
瞭解氨化對可持續農業至關重要。
ammonification contributes to the overall nitrogen budget of an ecosystem.
氨化有助於生態系統的整體氮預算。
disruptions to ammonification can have negative impacts on soil fertility.
對氨化的干擾會對土壤肥力產生負面影響。
research continues to explore the complexities of ammonification in different environments.
研究仍在探索不同環境中氨化過程的複雜性。
ammonification is a fundamental process within the global nitrogen cycle.
氨化是全球氮循環中的基本過程。
探索常見搜尋詞彙