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The breathing pattern and the ventilatory response to aquatic and aerial hypoxia and hypercarbia in the frog Pipa carvalhoi
Anuran amphibians are known to exhibit an intermittent pattern of pulmonary ventilation and to exhibit an increased ventilatory response to hypoxia and hypercarbia. However, only a few species have been studied to date. The aquatic frog Pipa carvalhoi inhabits lakes, ponds and marshes that are rich...
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| Published in: | Comparative biochemistry and physiology. Part A, Molecular & integrative physiology Molecular & integrative physiology, 2012-07, Vol.162 (3), p.281-287 |
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| container_end_page | 287 |
| container_issue | 3 |
| container_start_page | 281 |
| container_title | Comparative biochemistry and physiology. Part A, Molecular & integrative physiology |
| container_volume | 162 |
| creator | Fonseca, Elisa M. da Silva, Glauber S.F. Fernandes, Marcelo Giusti, Humberto Noronha-de-Souza, Carolina R. Glass, Mogens L. Bícego, Kênia C. Gargaglioni, Luciane H. |
| description | Anuran amphibians are known to exhibit an intermittent pattern of pulmonary ventilation and to exhibit an increased ventilatory response to hypoxia and hypercarbia. However, only a few species have been studied to date. The aquatic frog Pipa carvalhoi inhabits lakes, ponds and marshes that are rich in nutrients but low in O2. There are no studies of the respiratory pattern of this species and its ventilation during hypoxia or hypercarbia. Accordingly, the aim of the present study was to characterize the breathing pattern and the ventilatory response to aquatic and aerial hypoxia and hypercarbia in this species. With this purpose, pulmonary ventilation (VI) was directly measured by the pneumotachograph method during normocapnic normoxia to determine the basal respiratory pattern and during aerial and aquatic hypercarbia (5% CO2) and hypoxia (5% O2). Our data demonstrate that P. carvalhoi exhibits a periodic breathing pattern composed of single events (single breaths) of pulmonary ventilation separated by periods of apnea. The animals had an enhanced VI during aerial hypoxia, but not during aquatic hypoxia. This increase was strictly the result of an increase in the breathing frequency. A pronounced increase in VI was observed if the animals were simultaneously exposed to aerial and aquatic hypercarbia, whereas small or no ventilatory responses were observed during separately administered aerial or aquatic hypercarbia. P. carvalhoi primarily inhabits an aquatic environment. Nevertheless, it does not respond to low O2 levels in water, although it does so in air. The observed ventilatory responses to hypercarbia may indicate that this species is similar to other anurans in possessing central chemoreceptors. |
| doi_str_mv | 10.1016/j.cbpa.2012.03.020 |
| format | article |
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However, only a few species have been studied to date. The aquatic frog Pipa carvalhoi inhabits lakes, ponds and marshes that are rich in nutrients but low in O2. There are no studies of the respiratory pattern of this species and its ventilation during hypoxia or hypercarbia. Accordingly, the aim of the present study was to characterize the breathing pattern and the ventilatory response to aquatic and aerial hypoxia and hypercarbia in this species. With this purpose, pulmonary ventilation (VI) was directly measured by the pneumotachograph method during normocapnic normoxia to determine the basal respiratory pattern and during aerial and aquatic hypercarbia (5% CO2) and hypoxia (5% O2). Our data demonstrate that P. carvalhoi exhibits a periodic breathing pattern composed of single events (single breaths) of pulmonary ventilation separated by periods of apnea. The animals had an enhanced VI during aerial hypoxia, but not during aquatic hypoxia. This increase was strictly the result of an increase in the breathing frequency. A pronounced increase in VI was observed if the animals were simultaneously exposed to aerial and aquatic hypercarbia, whereas small or no ventilatory responses were observed during separately administered aerial or aquatic hypercarbia. P. carvalhoi primarily inhabits an aquatic environment. Nevertheless, it does not respond to low O2 levels in water, although it does so in air. The observed ventilatory responses to hypercarbia may indicate that this species is similar to other anurans in possessing central chemoreceptors.</description><identifier>ISSN: 1095-6433</identifier><identifier>EISSN: 1531-4332</identifier><identifier>DOI: 10.1016/j.cbpa.2012.03.020</identifier><identifier>PMID: 22503869</identifier><language>eng</language><publisher>United States: Elsevier Inc</publisher><subject>air ; Amphibian ; Animals ; Anura ; apnea ; aquatic environment ; breathing ; carbon dioxide ; Chemoreceptor Cells - metabolism ; chemoreceptors ; frogs ; Hypercapnia - metabolism ; Hypercapnia - physiopathology ; Hypercarbia ; Hypoxia ; Hypoxia - metabolism ; Hypoxia - physiopathology ; Lakes ; marshes ; normoxia ; nutrients ; oxygen ; Oxygen - metabolism ; Pipidae ; Pipidae - metabolism ; Pipidae - physiology ; Ponds ; Pulmonary ventilation ; Pulmonary Ventilation - physiology ; Respiratory Mechanics - physiology ; Water</subject><ispartof>Comparative biochemistry and physiology. 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Our data demonstrate that P. carvalhoi exhibits a periodic breathing pattern composed of single events (single breaths) of pulmonary ventilation separated by periods of apnea. The animals had an enhanced VI during aerial hypoxia, but not during aquatic hypoxia. This increase was strictly the result of an increase in the breathing frequency. A pronounced increase in VI was observed if the animals were simultaneously exposed to aerial and aquatic hypercarbia, whereas small or no ventilatory responses were observed during separately administered aerial or aquatic hypercarbia. P. carvalhoi primarily inhabits an aquatic environment. Nevertheless, it does not respond to low O2 levels in water, although it does so in air. The observed ventilatory responses to hypercarbia may indicate that this species is similar to other anurans in possessing central chemoreceptors.</description><subject>air</subject><subject>Amphibian</subject><subject>Animals</subject><subject>Anura</subject><subject>apnea</subject><subject>aquatic environment</subject><subject>breathing</subject><subject>carbon dioxide</subject><subject>Chemoreceptor Cells - metabolism</subject><subject>chemoreceptors</subject><subject>frogs</subject><subject>Hypercapnia - metabolism</subject><subject>Hypercapnia - physiopathology</subject><subject>Hypercarbia</subject><subject>Hypoxia</subject><subject>Hypoxia - metabolism</subject><subject>Hypoxia - physiopathology</subject><subject>Lakes</subject><subject>marshes</subject><subject>normoxia</subject><subject>nutrients</subject><subject>oxygen</subject><subject>Oxygen - metabolism</subject><subject>Pipidae</subject><subject>Pipidae - metabolism</subject><subject>Pipidae - physiology</subject><subject>Ponds</subject><subject>Pulmonary ventilation</subject><subject>Pulmonary Ventilation - physiology</subject><subject>Respiratory Mechanics - physiology</subject><subject>Water</subject><issn>1095-6433</issn><issn>1531-4332</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2012</creationdate><recordtype>article</recordtype><recordid>eNp9kEuP0zAQgCMEYl_8AQ7gI5cEv-I0Ehe0ggVpJZB292xNnEnrKo2ztltR8ed32i4c1xfPjL8Zeb6ieC94Jbgwn9eV62aoJBey4qrikr8qzkWtRKmVkq8p5m1dGkrOiouU1pyOFvptcSZlzdXCtOfF3_sVsi4i5JWflmyGnDFODKaeZXrZ4ZT9CDnEPYuY5jAlZDkweNxC9u7IAUYPI1vt5_DHw7FEMUYHsaPcT8dJQwxL9tvPwKi-g3EV_FXxZoAx4bvn-7J4-P7t_vpHefvr5uf119vSaalz2Sgjm1bzBoau0Vy5vjZtO2hl2oUw_QJNqzuhReega3otlaItG8lb0aAZ6lpdFp9Oc-cYHreYst345HAcYcKwTZZkkrWm1oJQeUJdDClFHOwc_QbinqADZ-zaHqTbg3TLlSXp1PThef6222D_v-WfZQI-noABgoVl9Mk-3NGEmnNJq7WGiC8nAsnDzmO0yXmcHPY-osu2D_6lHzwBH-eb8w</recordid><startdate>20120701</startdate><enddate>20120701</enddate><creator>Fonseca, Elisa M.</creator><creator>da Silva, Glauber S.F.</creator><creator>Fernandes, Marcelo</creator><creator>Giusti, Humberto</creator><creator>Noronha-de-Souza, Carolina R.</creator><creator>Glass, Mogens L.</creator><creator>Bícego, Kênia C.</creator><creator>Gargaglioni, Luciane H.</creator><general>Elsevier Inc</general><scope>6I.</scope><scope>AAFTH</scope><scope>FBQ</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>20120701</creationdate><title>The breathing pattern and the ventilatory response to aquatic and aerial hypoxia and hypercarbia in the frog Pipa carvalhoi</title><author>Fonseca, Elisa M. ; da Silva, Glauber S.F. ; Fernandes, Marcelo ; Giusti, Humberto ; Noronha-de-Souza, Carolina R. ; Glass, Mogens L. ; Bícego, Kênia C. ; Gargaglioni, Luciane H.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c424t-736279407afb7403cd5699f4369816d8e694b141bcab7d4233041720917e6f553</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2012</creationdate><topic>air</topic><topic>Amphibian</topic><topic>Animals</topic><topic>Anura</topic><topic>apnea</topic><topic>aquatic environment</topic><topic>breathing</topic><topic>carbon dioxide</topic><topic>Chemoreceptor Cells - metabolism</topic><topic>chemoreceptors</topic><topic>frogs</topic><topic>Hypercapnia - metabolism</topic><topic>Hypercapnia - physiopathology</topic><topic>Hypercarbia</topic><topic>Hypoxia</topic><topic>Hypoxia - metabolism</topic><topic>Hypoxia - physiopathology</topic><topic>Lakes</topic><topic>marshes</topic><topic>normoxia</topic><topic>nutrients</topic><topic>oxygen</topic><topic>Oxygen - metabolism</topic><topic>Pipidae</topic><topic>Pipidae - metabolism</topic><topic>Pipidae - physiology</topic><topic>Ponds</topic><topic>Pulmonary ventilation</topic><topic>Pulmonary Ventilation - physiology</topic><topic>Respiratory Mechanics - physiology</topic><topic>Water</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Fonseca, Elisa M.</creatorcontrib><creatorcontrib>da Silva, Glauber S.F.</creatorcontrib><creatorcontrib>Fernandes, Marcelo</creatorcontrib><creatorcontrib>Giusti, Humberto</creatorcontrib><creatorcontrib>Noronha-de-Souza, Carolina R.</creatorcontrib><creatorcontrib>Glass, Mogens L.</creatorcontrib><creatorcontrib>Bícego, Kênia C.</creatorcontrib><creatorcontrib>Gargaglioni, Luciane H.</creatorcontrib><collection>ScienceDirect Open Access Titles</collection><collection>Elsevier:ScienceDirect:Open Access</collection><collection>AGRIS</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>Comparative biochemistry and physiology. 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Part A, Molecular & integrative physiology</jtitle><addtitle>Comp Biochem Physiol A Mol Integr Physiol</addtitle><date>2012-07-01</date><risdate>2012</risdate><volume>162</volume><issue>3</issue><spage>281</spage><epage>287</epage><pages>281-287</pages><issn>1095-6433</issn><eissn>1531-4332</eissn><abstract>Anuran amphibians are known to exhibit an intermittent pattern of pulmonary ventilation and to exhibit an increased ventilatory response to hypoxia and hypercarbia. However, only a few species have been studied to date. The aquatic frog Pipa carvalhoi inhabits lakes, ponds and marshes that are rich in nutrients but low in O2. There are no studies of the respiratory pattern of this species and its ventilation during hypoxia or hypercarbia. Accordingly, the aim of the present study was to characterize the breathing pattern and the ventilatory response to aquatic and aerial hypoxia and hypercarbia in this species. With this purpose, pulmonary ventilation (VI) was directly measured by the pneumotachograph method during normocapnic normoxia to determine the basal respiratory pattern and during aerial and aquatic hypercarbia (5% CO2) and hypoxia (5% O2). Our data demonstrate that P. carvalhoi exhibits a periodic breathing pattern composed of single events (single breaths) of pulmonary ventilation separated by periods of apnea. The animals had an enhanced VI during aerial hypoxia, but not during aquatic hypoxia. This increase was strictly the result of an increase in the breathing frequency. A pronounced increase in VI was observed if the animals were simultaneously exposed to aerial and aquatic hypercarbia, whereas small or no ventilatory responses were observed during separately administered aerial or aquatic hypercarbia. P. carvalhoi primarily inhabits an aquatic environment. Nevertheless, it does not respond to low O2 levels in water, although it does so in air. 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| ispartof | Comparative biochemistry and physiology. Part A, Molecular & integrative physiology, 2012-07, Vol.162 (3), p.281-287 |
| issn | 1095-6433 1531-4332 |
| language | eng |
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| source | Elsevier |
| subjects | air Amphibian Animals Anura apnea aquatic environment breathing carbon dioxide Chemoreceptor Cells - metabolism chemoreceptors frogs Hypercapnia - metabolism Hypercapnia - physiopathology Hypercarbia Hypoxia Hypoxia - metabolism Hypoxia - physiopathology Lakes marshes normoxia nutrients oxygen Oxygen - metabolism Pipidae Pipidae - metabolism Pipidae - physiology Ponds Pulmonary ventilation Pulmonary Ventilation - physiology Respiratory Mechanics - physiology Water |
| title | The breathing pattern and the ventilatory response to aquatic and aerial hypoxia and hypercarbia in the frog Pipa carvalhoi |
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