Collaborative Research: The Function and Evolution of the Hammerhead Shark Cephalofoil.

合作研究：锤头鲨头叶的功能和进化。

• 批准号: 0640133
• 负责人: Philip Motta
• 金额: --
• 依托单位: University of South Florida
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2007
• 资助国家: 美国
• 起止时间: 2007-05-01 至 2010-08-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0640133&HistoricalAwards=false
• 关键词: Collaborative; Research; Function; Evolution; Hammerhead

The hammerhead sharks offer one of the most striking examples of evolutionary divergence in form and function. The greatly expanded head or cephalofoil may be as great as half their body length in the winghead shark Eusphyra blochii or only slightly enlarged as in the bonnethead shark Sphyrna tiburo. The function of the laterally expanded head is unclear, but hypotheses include greater maneuverability and lift, better olfactory resolution, enhanced binocular and lateral vision, and superior electro- or mechanoreception. This project investigates the function and evolution of the hammerhead shark cephalofoil utilizing a variety of species with divergent head shapes (E. blochii, the great hammerhead S. mokarran, smooth hammerhead S. zygaena, the scalloped hammerhead S. lewini, scalloped bonnethead S. corona, scoophead S. media, and S. tiburo). This study will: establish an evolutionary history of the hammerhead sharks using modern molecular DNA analysis; examine the functional and anatomical differences in the sensory, feeding and respiratory structures among the hammerhead sharks; compare the sensory capabilities of the expanded cephalofoil to the closely related blacknose shark, Carcharhinus acronotus with its more typical pointed head; investigate the role of the expanded head in locomotion and maneuverability; and finally, reveal the evolutionary sequence of structural and functional changes that have resulted in this striking head form. These goals will be accomplished by integrating the expertise of evolutionary biologists, sensory physiologists, functional morphologists, and fluid engineers along with utilizing the specialized shark research facilities of Mote Marine Laboratory in Florida. This collaborative study will identify the selective pressures that have resulted in the evolution of this bizarre head form, and increase our knowledge of the structure, function, and evolution of sharks, an overfished and depleted group of marine predators. This project promotes training, teaching, and learning at all educational levels. Undergraduate and graduate students will be cross-trained in evolutionary biology, sensory physiology, anatomy and biomechanics. This research will be integrated into teaching at the graduate and undergraduate levels at three universities. Because of the broad public interest in sharks the PIs will provide public outreach and education for school children to adults through newspaper and magazine editorials, television documentaries, and museum displays.

锤头鲨提供了一个最引人注目的例子，说明了在形式和功能上的进化分歧。 在翼头真鲨中，头部或头叶的极大扩张可能是其体长的一半，或在双头真鲨中，头部或头叶的极大扩张可能是其体长的一半。 侧向扩展的头部的功能尚不清楚，但假设包括更大的机动性和升降机，更好的嗅觉分辨率，增强双眼和侧向视觉，以及上级电或机械接收。 本计画利用不同头部形状的锤头鲨来研究锤头鲨的功能与演化。blochii，大锤头鲨S. mokarran，smooth hammerhead S. zygaena、锤头鲨S. lewini，scalloped bonnethead S. corona，scoophead S. media和S.蒂布罗）。这项研究将：利用现代分子DNA分析建立锤头鲨的进化史;研究锤头鲨在感觉、摄食和呼吸结构方面的功能和解剖学差异;比较膨胀头叶鲨与具有更典型尖头的近缘黑鲨Carcharhinus acronotus的感觉能力;研究膨胀头在运动和机动性方面的作用;最后，揭示导致这种引人注目的头部形式的结构和功能变化的进化顺序。 这些目标将通过整合进化生物学家，感觉生理学家，功能形态学家和流体工程师的专业知识沿着利用佛罗里达州莫特海洋实验室的专业鲨鱼研究设施来实现。 这项合作研究将确定导致这种奇异头部形态进化的选择性压力，并增加我们对鲨鱼的结构，功能和进化的了解，鲨鱼是一种过度捕捞和枯竭的海洋捕食者。该项目促进各级教育的培训、教学和学习。 本科生和研究生将在进化生物学，感觉生理学，解剖学和生物力学交叉培训。 这项研究将纳入三所大学的研究生和本科生教学。 由于公众对鲨鱼的广泛兴趣，PI将通过报纸和杂志社论、电视纪录片和博物馆展览，为学生和成年人提供公共宣传和教育。