zooxanthellae symbiosis
虫黄藻共生
containing zooxanthellae
含有虫黄藻
zooxanthellae density
虫黄藻密度
zooxanthellae presence
虫黄藻存在
zooxanthellae decline
虫黄藻减少
zooxanthellae bleaching
虫黄藻白化
zooxanthellae uptake
虫黄藻吸收
zooxanthellae host
虫黄藻宿主
zooxanthellae life
虫黄藻生命
zooxanthellae research
虫黄藻研究
coral reefs depend on a symbiotic relationship with zooxanthellae for survival.
珊瑚礁依靠与虫黄藻的共生关系生存。
zooxanthellae reside within coral tissues, providing them with energy through photosynthesis.
虫黄藻居住在珊瑚组织中,通过光合作用为它们提供能量。
ocean warming can cause corals to expel their zooxanthellae, leading to bleaching.
海洋变暖会导致珊瑚排出虫黄藻,从而导致珊瑚白化现象。
the density of zooxanthellae within coral tissue varies depending on coral species.
珊瑚组织中虫黄藻的密度因珊瑚种类而异。
researchers are studying zooxanthellae to understand coral resilience to climate change.
研究人员正在研究虫黄藻,以了解珊瑚对气候变化的适应能力。
zooxanthellae are photosynthetic algae that live within the tissues of reef-building corals.
虫黄藻是生活在珊瑚礁中珊瑚组织内的光合性藻类。
the health of zooxanthellae populations is a key indicator of reef ecosystem health.
虫黄藻种群的健康状况是珊瑚礁生态系统健康状况的重要指标。
symbiotic zooxanthellae provide corals with up to 90% of their nutritional needs.
共生的虫黄藻为珊瑚提供高达 90% 的营养需求。
changes in ocean acidity can negatively impact the ability of zooxanthellae to photosynthesize.
海水中酸度的变化会对虫黄藻进行光合作用的能力产生负面影响。
different strains of zooxanthellae exhibit varying levels of heat tolerance in corals.
不同类型的虫黄藻在珊瑚中表现出不同的耐热性。
zooxanthellae play a crucial role in the carbon cycle within coral reef ecosystems.
虫黄藻在珊瑚礁生态系统中的碳循环中发挥着至关重要的作用。
zooxanthellae symbiosis
虫黄藻共生
containing zooxanthellae
含有虫黄藻
zooxanthellae density
虫黄藻密度
zooxanthellae presence
虫黄藻存在
zooxanthellae decline
虫黄藻减少
zooxanthellae bleaching
虫黄藻白化
zooxanthellae uptake
虫黄藻吸收
zooxanthellae host
虫黄藻宿主
zooxanthellae life
虫黄藻生命
zooxanthellae research
虫黄藻研究
coral reefs depend on a symbiotic relationship with zooxanthellae for survival.
珊瑚礁依靠与虫黄藻的共生关系生存。
zooxanthellae reside within coral tissues, providing them with energy through photosynthesis.
虫黄藻居住在珊瑚组织中,通过光合作用为它们提供能量。
ocean warming can cause corals to expel their zooxanthellae, leading to bleaching.
海洋变暖会导致珊瑚排出虫黄藻,从而导致珊瑚白化现象。
the density of zooxanthellae within coral tissue varies depending on coral species.
珊瑚组织中虫黄藻的密度因珊瑚种类而异。
researchers are studying zooxanthellae to understand coral resilience to climate change.
研究人员正在研究虫黄藻,以了解珊瑚对气候变化的适应能力。
zooxanthellae are photosynthetic algae that live within the tissues of reef-building corals.
虫黄藻是生活在珊瑚礁中珊瑚组织内的光合性藻类。
the health of zooxanthellae populations is a key indicator of reef ecosystem health.
虫黄藻种群的健康状况是珊瑚礁生态系统健康状况的重要指标。
symbiotic zooxanthellae provide corals with up to 90% of their nutritional needs.
共生的虫黄藻为珊瑚提供高达 90% 的营养需求。
changes in ocean acidity can negatively impact the ability of zooxanthellae to photosynthesize.
海水中酸度的变化会对虫黄藻进行光合作用的能力产生负面影响。
different strains of zooxanthellae exhibit varying levels of heat tolerance in corals.
不同类型的虫黄藻在珊瑚中表现出不同的耐热性。
zooxanthellae play a crucial role in the carbon cycle within coral reef ecosystems.
虫黄藻在珊瑚礁生态系统中的碳循环中发挥着至关重要的作用。
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