scleractinian corals are the primary builders of tropical reef structures.
石珊瑚是热带礁石结构的主要建造者。
the scleractinian reef ecosystem supports thousands of marine species.
石珊瑚礁生态系统支持数千种海洋物种。
many scleractinian species rely on symbiotic zooxanthellae for nutrition.
许多石珊瑚物种依靠共生的虫黄藻获取营养。
ocean warming threatens scleractinian coral bleaching worldwide.
海洋变暖威胁着全球石珊瑚的白化现象。
scleractinian skeletons form the foundation of coral atolls.
石珊瑚骨架形成了环礁的基础。
researchers study scleractinian growth rates to understand reef health.
研究人员研究石珊瑚的生长速度以了解珊瑚礁的健康状况。
scleractinian diversity is highest in the coral triangle region.
石珊瑚多样性在珊瑚三角区最高。
fossil scleractinian corals provide records of past climate conditions.
化石石珊瑚提供了过去气候条件的记录。
marine protected areas help conserve scleractinian communities.
海洋保护区有助于保护石珊瑚群落。
scleractinian calcification rates decline under acidic conditions.
在酸性条件下,石珊瑚的钙化速率会下降。
ancient scleractinian reefs took thousands of years to develop.
古老的石珊瑚礁花了数千年才形成。
scleractinian corals are the primary builders of tropical reef structures.
石珊瑚是热带礁石结构的主要建造者。
the scleractinian reef ecosystem supports thousands of marine species.
石珊瑚礁生态系统支持数千种海洋物种。
many scleractinian species rely on symbiotic zooxanthellae for nutrition.
许多石珊瑚物种依靠共生的虫黄藻获取营养。
ocean warming threatens scleractinian coral bleaching worldwide.
海洋变暖威胁着全球石珊瑚的白化现象。
scleractinian skeletons form the foundation of coral atolls.
石珊瑚骨架形成了环礁的基础。
researchers study scleractinian growth rates to understand reef health.
研究人员研究石珊瑚的生长速度以了解珊瑚礁的健康状况。
scleractinian diversity is highest in the coral triangle region.
石珊瑚多样性在珊瑚三角区最高。
fossil scleractinian corals provide records of past climate conditions.
化石石珊瑚提供了过去气候条件的记录。
marine protected areas help conserve scleractinian communities.
海洋保护区有助于保护石珊瑚群落。
scleractinian calcification rates decline under acidic conditions.
在酸性条件下,石珊瑚的钙化速率会下降。
ancient scleractinian reefs took thousands of years to develop.
古老的石珊瑚礁花了数千年才形成。
探索常用高频词汇