Bu madde, ; zira herhangi bir maddeden bu maddeye verilmiş bir bağlantı yoktur.Şubat 2024) ( |
Bu sayfanın tamamının ya da bir kısmının Türkçeye çevrilmesi gerekmektedir. Bu sayfanın tamamı ya da bir kısmı Türkçe dışındaki bir dilde yazılmıştır. Madde, alakalı dilin okuyucuları için oluşturulmuşsa o dildeki Vikipedi'ye aktarılmalıdır. İlgili değişiklikler gerçekleşmezse maddenin tamamının ya da çevrilmemiş kısımların silinmesi sözkonusu olabilecektir. İlgili çalışmayı yapmak üzere |
Evolution of The Lung, describes the evolutionary process by which bony fish living in oxygen-poor waters developed lungs. Air breathing is a critical event for the transition from water to land and the evolution of tetrapods. The vertebrate lung originated from a progenitor structure found in primitive bony fish. The origin of the neural substrates that are sensitive to metabolically produced and rhythmically activate respiratory muscles to match lung ventilation with metabolic demand is not yet known. A specific periodic centrally generated rhythm described as “cough” occurring in Lamprey in vivo and in vitro was found to be modulated by central sensitivity to . This suggests that elements critical for the evolution of breathing in tetrapods were present in the most basal vertebrate ancestors before the evolution of the lung. Scientists think that the evolution of breathing in all vertebrates occurred through exaptations derived from these critical core elements.
Tetrapods, a group of pioneer lungfish and 4-limbed land vertebrates, still have the structures of their ancestors today. They lived in water and had scales and fleshy fins. However, they also had lungs that they used to breathe oxygen. Between 360 and 390 million years ago, descendants of these organisms began living in shallower waters and eventually moved to land. As they did, they experienced natural selection that shaped many adaptations for a terrestrial lifestyle. Because fish appear in the fossil record earlier than the branch called tetrapods, it is important to assume that modern fish share the same characteristics that they and humans had in their common ancestors. This line of reasoning is intuitive, but not correct. While it is true that both modern ray-finned fish and the common ancestors of tetrapods were finned and aquatic, this is not the case when it comes to lungs. The evolution of the lungs is basically a process that begins with the formation of a skin sac around the gills. While there is normally water pressure in the gills, vertebrate life on land was possible because the air, which is not as dense as water, could provide the same pressure with these sacs.
Gills and lung
Current evidence suggests that gills were present in the earliest bony fishes – the common ancestor of Sarcopterygii and Actinopterygii. However, lungs, gas-filled organs that serve the respiratory function, also evolved very early. The common ancestor of fish and ray-finned fish had lungs as well as gills. Sarcopterygii had lungs attached to them, which tetrapods, , and inherited and used to obtain oxygen. Coelacanths and lungfish have also retained their gills until this time. There is evidence that modern tetrapods once had gills, but these were lost during early evolution. Some ray-finned fish have retained their lungs for a long time. But in the lineage that gave rise to most ray-finned fins (and at least one other lineage), lungs evolved into swim bladders. This is a gas-filled organ that helps the fish control its buoyancy.
Ayrıca bakınız
Source
- ^ Hoffman, M.; Taylor, B. E.; Harris, M. B. (2016-4). "Evolution of lung breathing from a lungless primitive vertebrate". Respiratory physiology & neurobiology. 224: 11-16. doi:10.1016/j.resp.2015.09.016. ISSN 1569-9048. (PMC) 5138057 $2. (PMID) 26476056. 11 Kasım 2020 tarihinde kaynağından arşivlendi. Erişim tarihi: 24 Şubat 2024. Tarih değerini gözden geçirin:
|tarih=
() - ^ a b Cupello, Camila; Hirasawa, Tatsuya; Tatsumi, Norifumi; Yabumoto, Yoshitaka; Gueriau, Pierre; Isogai, Sumio; Matsumoto, Ryoko; Saruwatari, Toshiro; King, Andrew; Hoshino, Masato; Uesugi, Kentaro; Okabe, Masataka; Brito, Paulo M. "Lung evolution in vertebrates and the water-to-land transition". eLife. 11: e77156. doi:10.7554/eLife.77156. ISSN 2050-084X. (PMC) 9323002 $2. (PMID) 35880746. 24 Şubat 2024 tarihinde kaynağından arşivlendi. Erişim tarihi: 24 Şubat 2024.
- ^ "Hayvanların Evrimi (665 Milyon Yıl Önce - Günümüz)". Evrim Ağacı. 17 Mart 2012. 24 Şubat 2024 tarihinde kaynağından arşivlendi. Erişim tarihi: 24 Şubat 2024.
- ^ "Evrimsel Süreç - 15: Basit Yapılı Hayvanların İlkin Evrimi ve Yükselişleri (580 - 542 Milyon Yıl Önce)". Evrim Ağacı. 11 Mart 2012. 24 Şubat 2024 tarihinde kaynağından arşivlendi. Erişim tarihi: 24 Şubat 2024.
- ^ "The origin of tetrapods - Understanding Evolution" (İngilizce). 28 Nisan 2021. 27 Kasım 2023 tarihinde kaynağından arşivlendi. Erişim tarihi: 24 Şubat 2024.
- ^ "From water to land - Understanding Evolution" (İngilizce). 8 Haziran 2021. 24 Şubat 2024 tarihinde kaynağından arşivlendi. Erişim tarihi: 24 Şubat 2024.
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Bu madde oksuz maddedir zira herhangi bir maddeden bu maddeye verilmis bir baglanti yoktur Lutfen ilgili maddelerden bu sayfaya baglanti vermeye calisin Subat 2024 Bu sayfanin tamaminin ya da bir kisminin Turkceye cevrilmesi gerekmektedir Bu sayfanin tamami ya da bir kismi Turkce disindaki bir dilde yazilmistir Madde alakali dilin okuyuculari icin olusturulmussa o dildeki Vikipedi ye aktarilmalidir Ilgili degisiklikler gerceklesmezse maddenin tamaminin ya da cevrilmemis kisimlarin silinmesi sozkonusu olabilecektir Ilgili calismayi yapmak uzere bu sayfadan destek alabilirsiniz Evolution of The Lung describes the evolutionary process by which bony fish living in oxygen poor waters developed lungs Air breathing is a critical event for the transition from water to land and the evolution of tetrapods The vertebrate lung originated from a progenitor structure found in primitive bony fish The origin of the neural substrates that are sensitive to metabolically produced and rhythmically activate respiratory muscles to match lung ventilation with metabolic demand is not yet known A specific periodic centrally generated rhythm described as cough occurring in Lamprey in vivo and in vitro was found to be modulated by central sensitivity to This suggests that elements critical for the evolution of breathing in tetrapods were present in the most basal vertebrate ancestors before the evolution of the lung Scientists think that the evolution of breathing in all vertebrates occurred through exaptations derived from these critical core elements Lung of a lungfish Tetrapods a group of pioneer lungfish and 4 limbed land vertebrates still have the structures of their ancestors today They lived in water and had scales and fleshy fins However they also had lungs that they used to breathe oxygen Between 360 and 390 million years ago descendants of these organisms began living in shallower waters and eventually moved to land As they did they experienced natural selection that shaped many adaptations for a terrestrial lifestyle Because fish appear in the fossil record earlier than the branch called tetrapods it is important to assume that modern fish share the same characteristics that they and humans had in their common ancestors This line of reasoning is intuitive but not correct While it is true that both modern ray finned fish and the common ancestors of tetrapods were finned and aquatic this is not the case when it comes to lungs The evolution of the lungs is basically a process that begins with the formation of a skin sac around the gills While there is normally water pressure in the gills vertebrate life on land was possible because the air which is not as dense as water could provide the same pressure with these sacs Gills and lungCurrent evidence suggests that gills were present in the earliest bony fishes the common ancestor of Sarcopterygii and Actinopterygii However lungs gas filled organs that serve the respiratory function also evolved very early The common ancestor of fish and ray finned fish had lungs as well as gills Sarcopterygii had lungs attached to them which tetrapods and inherited and used to obtain oxygen Coelacanths and lungfish have also retained their gills until this time There is evidence that modern tetrapods once had gills but these were lost during early evolution Some ray finned fish have retained their lungs for a long time But in the lineage that gave rise to most ray finned fins and at least one other lineage lungs evolved into swim bladders This is a gas filled organ that helps the fish control its buoyancy Ayrica bakinizEvolution Animal Kingdom BiologySource Hoffman M Taylor B E Harris M B 2016 4 Evolution of lung breathing from a lungless primitive vertebrate Respiratory physiology amp neurobiology 224 11 16 doi 10 1016 j resp 2015 09 016 ISSN 1569 9048 PMC 5138057 2 PMID 26476056 11 Kasim 2020 tarihinde kaynagindan arsivlendi Erisim tarihi 24 Subat 2024 Tarih degerini gozden gecirin tarih yardim a b Cupello Camila Hirasawa Tatsuya Tatsumi Norifumi Yabumoto Yoshitaka Gueriau Pierre Isogai Sumio Matsumoto Ryoko Saruwatari Toshiro King Andrew Hoshino Masato Uesugi Kentaro Okabe Masataka Brito Paulo M Lung evolution in vertebrates and the water to land transition eLife 11 e77156 doi 10 7554 eLife 77156 ISSN 2050 084X PMC 9323002 2 PMID 35880746 24 Subat 2024 tarihinde kaynagindan arsivlendi Erisim tarihi 24 Subat 2024 Hayvanlarin Evrimi 665 Milyon Yil Once Gunumuz Evrim Agaci 17 Mart 2012 24 Subat 2024 tarihinde kaynagindan arsivlendi Erisim tarihi 24 Subat 2024 Evrimsel Surec 15 Basit Yapili Hayvanlarin Ilkin Evrimi ve Yukselisleri 580 542 Milyon Yil Once Evrim Agaci 11 Mart 2012 24 Subat 2024 tarihinde kaynagindan arsivlendi Erisim tarihi 24 Subat 2024 The origin of tetrapods Understanding Evolution Ingilizce 28 Nisan 2021 27 Kasim 2023 tarihinde kaynagindan arsivlendi Erisim tarihi 24 Subat 2024 From water to land Understanding Evolution Ingilizce 8 Haziran 2021 24 Subat 2024 tarihinde kaynagindan arsivlendi Erisim tarihi 24 Subat 2024