Convergent Evolution on Earth: Lessons for the Search for Extraterrestrial Life (Vienna Series in Theoretical Biology)
معرفی کتاب «Convergent Evolution on Earth: Lessons for the Search for Extraterrestrial Life (Vienna Series in Theoretical Biology)» نوشتهٔ George R., Mcghee, Jr، منتشرشده توسط نشر The MIT Press در سال 2019. این کتاب در فرمت epub، زبان انگلیسی ارائه شده است.
An analysis of patterns of convergent evolution on Earth that suggests where we might look for similar convergent forms on other planets. Why does a sea lily look like a palm tree? And why is a sea lily called a “lily” when it is a marine animal and not a plant? Many marine animals bear a noticeable similarity in form to land-dwelling plants. And yet these marine animal forms evolved in the oceans first; land plants independently and convergently evolved similar forms much later in geologic time. In this book, George McGhee analyzes patterns of convergent evolution on Earth and argues that these patterns offer lessons for the search for life elsewhere in the universe. Our Earth is a water world; 71 percent of the earth's surface is covered by water. The fossil record shows that multicellular life on dry land is a new phenomenon; for the vast majority of the earth's history—3,500 million years of its 4,560 million years of existence—complex life existed only in the oceans. Explaining that convergent biological evolution occurs because of limited evolutionary pathways, McGhee examines examples of convergent evolution in forms of feeding, immobility and mobility, defense, and organ systems. McGhee suggests that the patterns of convergent evolution that we see in our own water world indicate the potential for similar convergent forms in other water worlds. We should search for extraterrestrial life on water worlds, and for technological life on water worlds with continental landmasses. "Why does a sea lily look like a palm tree? And why is a sea lily called a "lily" when it is a marine animal and not a plant? Many marine animals bear a noticeable similarity in form to land-dwelling plants. And yet these marine animal forms evolved in the oceans first; land plants independently and convergently evolved similar forms much later in geologic time. In this book, George McGhee analyzes patterns of convergent evolution on Earth and argues that these patterns offer lessons for the search for life elsewhere in the universe. Our Earth is a water world; 71 percent of the earth's surface is covered by water. The fossil record shows that multicellular life on dry land is a new phenomenon; for the vast majority of the earth's history--3,500 million years of its 4,560 million years of existence--complex life existed only in the oceans. Explaining that convergent biological evolution occurs because of limited evolutionary pathways, McGhee examines examples of convergent evolution in forms of feeding, immobility and mobility, defense, and organ systems. McGhee suggests that the patterns of convergent evolution that we see in our own water world indicate the potential for similar convergent forms in other water worlds. We should search for extraterrestrial life on water worlds, and for technological life on water worlds with continental landmasses."-- Provided by publisher An analysis of patterns of convergent evolution on Earth that suggests where we might look for similar convergent forms on other planets. convergent evolution; marine life; extraterrestrial life; alien life; technological evolution; functional constraint; developmental constraint; limits in evolution; parallel evolution; theoretical morphology; Charles Darwin; fire; water worlds; oceanic worlds; Mars; photosynthetic animals; chemosynthetic animals; sessile animals; Europa; Enceladus; Titan; Goldilocks zone; colonial animals; filter-feeding animals; suction-feeding animals; multicellularity; immune systems; disparate species; convergance; body forms; bilateral; spinal column; morphology; optimized for environment; lifeforms; water-based
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