the slime gland of the myxine glutinosa is subject to extensive biological research.
黏盲鳗的黏液腺是广泛的生物学研究对象。
myxine uses a knotting behavior to tear off chunks of food from carcasses.
盲鳗利用打结的行为从尸体上撕下大块食物。
the defensive slime produced by myxine can clog the gills of predators.
盲鳗产生的防御性黏液可以堵塞捕食者的鳃。
marine biologists study the myxine to understand the evolution of vertebrate traits.
海洋生物学家研究盲鳗以了解脊椎动物特征的进化。
scavenging myxine play a crucial role in the nutrient cycling of the deep sea.
食腐的盲鳗在深海的养分循环中起着至关重要的作用。
the anatomy of the myxine skull differs significantly from that of jawed vertebrates.
盲鳗的头骨解剖结构与有颚脊椎动物有显著不同。
myxine glutinosa is the scientific name for the atlantic hagfish.
黏盲鳗是大西洋盲鳗的学名。
commercial fisheries often harvest myxine for their tough, eel-like skin.
商业渔业经常捕捞盲鳗以获取其坚韧的、类似鳗鱼的皮。
the phylogenetic position of myxine has been debated among scientists for decades.
几十年来,盲鳗的系统发育位置一直是科学家争论的话题。
unlike most fish, myxine lacks vertebrae and relies on a notochord for support.
与大多数鱼类不同,盲鳗没有脊椎,依靠脊索支撑身体。
the myxine genome provides insights into the immune system of early vertebrates.
盲鳗的基因组为早期脊椎动物的免疫系统提供了见解。
a diver encountered a myxine while exploring a shipwreck off the coast.
一名潜水员在探索海岸边的沉船时遇到了一条盲鳗。
the slime gland of the myxine glutinosa is subject to extensive biological research.
黏盲鳗的黏液腺是广泛的生物学研究对象。
myxine uses a knotting behavior to tear off chunks of food from carcasses.
盲鳗利用打结的行为从尸体上撕下大块食物。
the defensive slime produced by myxine can clog the gills of predators.
盲鳗产生的防御性黏液可以堵塞捕食者的鳃。
marine biologists study the myxine to understand the evolution of vertebrate traits.
海洋生物学家研究盲鳗以了解脊椎动物特征的进化。
scavenging myxine play a crucial role in the nutrient cycling of the deep sea.
食腐的盲鳗在深海的养分循环中起着至关重要的作用。
the anatomy of the myxine skull differs significantly from that of jawed vertebrates.
盲鳗的头骨解剖结构与有颚脊椎动物有显著不同。
myxine glutinosa is the scientific name for the atlantic hagfish.
黏盲鳗是大西洋盲鳗的学名。
commercial fisheries often harvest myxine for their tough, eel-like skin.
商业渔业经常捕捞盲鳗以获取其坚韧的、类似鳗鱼的皮。
the phylogenetic position of myxine has been debated among scientists for decades.
几十年来,盲鳗的系统发育位置一直是科学家争论的话题。
unlike most fish, myxine lacks vertebrae and relies on a notochord for support.
与大多数鱼类不同,盲鳗没有脊椎,依靠脊索支撑身体。
the myxine genome provides insights into the immune system of early vertebrates.
盲鳗的基因组为早期脊椎动物的免疫系统提供了见解。
a diver encountered a myxine while exploring a shipwreck off the coast.
一名潜水员在探索海岸边的沉船时遇到了一条盲鳗。
探索常用高频词汇