coccolithophore blooms
颗石藻水华
coccolithophore distribution
颗石藻分布
coccolithophore abundance
颗石藻丰度
coccolithophore calcification
颗石藻钙化
coccolithophore production
颗石藻产量
living coccolithophores
活颗石藻
fossil coccolithophores
颗石藻化石
marine coccolithophores
海洋颗石藻
dominant coccolithophore
优势颗石藻
coccolithophore species
颗石藻物种
marine scientists have discovered a new species of coccolithophore in the deep ocean waters.
海洋科学家在深海域发现了一种新的颗石藻新物种。
coccolithophore blooms can significantly affect ocean chemistry and marine ecosystems.
颗石藻水华可以显著影响海洋化学和海洋生态系统。
the tiny coccolithophore plays a crucial role in the global carbon cycle.
微小的颗石藻在全球碳循环中发挥着至关重要的作用。
researchers are studying how coccolithophore populations respond to climate change.
研究人员正在研究颗石藻种群如何应对气候变化。
some coccolithophore species produce distinctive calcium carbonate plates called coccoliths.
一些颗石藻物种会产生名为颗石粒的独特碳酸钙板。
ocean acidification threatens the survival of many calcifying coccolithophores.
海洋酸化威胁着许多钙化颗石藻的生存。
satellite imagery has revealed massive coccolithophore blooms in various ocean regions.
卫星图像揭示了各大洋区域中大规模的颗石藻水华。
the coccolithophore's ability to photosynthesize makes it a key primary producer.
颗石藻的光合作用能力使其成为重要的初级生产者。
coccolithophore productivity varies seasonally across different ocean basins.
不同海洋盆地的颗石藻生产力随季节变化而变化。
understanding coccolithophore ecology is essential for climate modeling and prediction.
理解颗石藻生态对于气候建模和预测至关重要。
the calcite shells of coccolithophores contribute significantly to marine sediment formation.
颗石藻的方解石壳对海洋沉积物的形成有重要贡献。
coccolithophore distribution is influenced by temperature, light availability, and nutrient concentrations.
颗石藻分布受温度、光照可用性和营养盐浓度的影响。
coccolithophore blooms
颗石藻水华
coccolithophore distribution
颗石藻分布
coccolithophore abundance
颗石藻丰度
coccolithophore calcification
颗石藻钙化
coccolithophore production
颗石藻产量
living coccolithophores
活颗石藻
fossil coccolithophores
颗石藻化石
marine coccolithophores
海洋颗石藻
dominant coccolithophore
优势颗石藻
coccolithophore species
颗石藻物种
marine scientists have discovered a new species of coccolithophore in the deep ocean waters.
海洋科学家在深海域发现了一种新的颗石藻新物种。
coccolithophore blooms can significantly affect ocean chemistry and marine ecosystems.
颗石藻水华可以显著影响海洋化学和海洋生态系统。
the tiny coccolithophore plays a crucial role in the global carbon cycle.
微小的颗石藻在全球碳循环中发挥着至关重要的作用。
researchers are studying how coccolithophore populations respond to climate change.
研究人员正在研究颗石藻种群如何应对气候变化。
some coccolithophore species produce distinctive calcium carbonate plates called coccoliths.
一些颗石藻物种会产生名为颗石粒的独特碳酸钙板。
ocean acidification threatens the survival of many calcifying coccolithophores.
海洋酸化威胁着许多钙化颗石藻的生存。
satellite imagery has revealed massive coccolithophore blooms in various ocean regions.
卫星图像揭示了各大洋区域中大规模的颗石藻水华。
the coccolithophore's ability to photosynthesize makes it a key primary producer.
颗石藻的光合作用能力使其成为重要的初级生产者。
coccolithophore productivity varies seasonally across different ocean basins.
不同海洋盆地的颗石藻生产力随季节变化而变化。
understanding coccolithophore ecology is essential for climate modeling and prediction.
理解颗石藻生态对于气候建模和预测至关重要。
the calcite shells of coccolithophores contribute significantly to marine sediment formation.
颗石藻的方解石壳对海洋沉积物的形成有重要贡献。
coccolithophore distribution is influenced by temperature, light availability, and nutrient concentrations.
颗石藻分布受温度、光照可用性和营养盐浓度的影响。
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