Nest ventilation explains gas composition in the nest-chamber of the European bee-eater. Ar, A. & Piontkewitz, Y. Respiration Physiology, 87(3):407–418, March, 1992. ![Nest ventilation explains gas composition in the nest-chamber of the European bee-eater [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper doi abstract bibtex The European bee-eater Merops apiaster builds a nest in soil banks comprising a horizontal corridor (159 cm) leading to a 3.4 L nest chamber. An adult and six eggs and/or nestlings occupy this nest for 60 d. Incubation and development are asynchronous. In order to evaluate the gas exchange pattern of the occupied nest, we measured the O2diffusive conductance of the nest with the ambient environment (GnO2), its internal O2 and CO2 pressures (PnO2 and PnCO2), temperature (Tn) and observed the sequences of development and the frequency of parental visits. We also measured the rate of O2 uptake (MO2) of the eggs, nestlings and adults. The GnO2 was 10.9 ml[stpd]/(h·Torr). The PnO2 dropped and the PnCO2 increased during incubation and growth to a maximal change of 24 and 23 Torr, respectively. Maximal MO2 of an egg and a nestling were 5.4 and 146 ml[stpd]/h, respectively. The MO2 of an adult at rest and at Tn (27°C) was 90.5 ml[stpd]/h. From clutch size, sequence of nest events, and the above values we have estimated a maximal nest chamber ventilation (Vn) of 0.8 L/min necessary to prevent lowering PnO2 to 74 Torr below ambient PO2. This convection is achieved chiefly by the parental feeding visits (up to 40/h). Thus, movement along the corridor convects 1.2 L per visit.
@article{ar_nest_1992,
title = {Nest ventilation explains gas composition in the nest-chamber of the {European} bee-eater},
volume = {87},
issn = {0034-5687},
url = {http://www.sciencedirect.com/science/article/pii/003456879290021N},
doi = {10.1016/0034-5687(92)90021-N},
abstract = {The European bee-eater Merops apiaster builds a nest in soil banks comprising a horizontal corridor (159 cm) leading to a 3.4 L nest chamber. An adult and six eggs and/or nestlings occupy this nest for 60 d. Incubation and development are asynchronous. In order to evaluate the gas exchange pattern of the occupied nest, we measured the O2diffusive conductance of the nest with the ambient environment (GnO2), its internal O2 and CO2 pressures (PnO2 and PnCO2), temperature (Tn) and observed the sequences of development and the frequency of parental visits. We also measured the rate of O2 uptake (MO2) of the eggs, nestlings and adults. The GnO2 was 10.9 ml[stpd]/(h·Torr). The PnO2 dropped and the PnCO2 increased during incubation and growth to a maximal change of 24 and 23 Torr, respectively. Maximal MO2 of an egg and a nestling were 5.4 and 146 ml[stpd]/h, respectively. The MO2 of an adult at rest and at Tn (27°C) was 90.5 ml[stpd]/h. From clutch size, sequence of nest events, and the above values we have estimated a maximal nest chamber ventilation (Vn) of 0.8 L/min necessary to prevent lowering PnO2 to 74 Torr below ambient PO2. This convection is achieved chiefly by the parental feeding visits (up to 40/h). Thus, movement along the corridor convects 1.2 L per visit.},
number = {3},
journal = {Respiration Physiology},
author = {Ar, Amos and Piontkewitz, Yael},
month = mar,
year = {1992},
keywords = {Birds, European bee-eater,, Egg, O uptake (European bee-eater), Incubation, egg (European bee-eater), Nest, ventilation (European bee-eater)},
pages = {407--418}
}
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In order to evaluate the gas exchange pattern of the occupied nest, we measured the O2diffusive conductance of the nest with the ambient environment (GnO2), its internal O2 and CO2 pressures (PnO2 and PnCO2), temperature (Tn) and observed the sequences of development and the frequency of parental visits. We also measured the rate of O2 uptake (MO2) of the eggs, nestlings and adults. The GnO2 was 10.9 ml[stpd]/(h·Torr). The PnO2 dropped and the PnCO2 increased during incubation and growth to a maximal change of 24 and 23 Torr, respectively. Maximal MO2 of an egg and a nestling were 5.4 and 146 ml[stpd]/h, respectively. The MO2 of an adult at rest and at Tn (27°C) was 90.5 ml[stpd]/h. From clutch size, sequence of nest events, and the above values we have estimated a maximal nest chamber ventilation (Vn) of 0.8 L/min necessary to prevent lowering PnO2 to 74 Torr below ambient PO2. This convection is achieved chiefly by the parental feeding visits (up to 40/h). Thus, movement along the corridor convects 1.2 L per visit.","number":"3","journal":"Respiration Physiology","author":[{"propositions":[],"lastnames":["Ar"],"firstnames":["Amos"],"suffixes":[]},{"propositions":[],"lastnames":["Piontkewitz"],"firstnames":["Yael"],"suffixes":[]}],"month":"March","year":"1992","keywords":"Birds, European bee-eater,, Egg, O uptake (European bee-eater), Incubation, egg (European bee-eater), Nest, ventilation (European bee-eater)","pages":"407–418","bibtex":"@article{ar_nest_1992,\n\ttitle = {Nest ventilation explains gas composition in the nest-chamber of the {European} bee-eater},\n\tvolume = {87},\n\tissn = {0034-5687},\n\turl = {http://www.sciencedirect.com/science/article/pii/003456879290021N},\n\tdoi = {10.1016/0034-5687(92)90021-N},\n\tabstract = {The European bee-eater Merops apiaster builds a nest in soil banks comprising a horizontal corridor (159 cm) leading to a 3.4 L nest chamber. An adult and six eggs and/or nestlings occupy this nest for 60 d. Incubation and development are asynchronous. In order to evaluate the gas exchange pattern of the occupied nest, we measured the O2diffusive conductance of the nest with the ambient environment (GnO2), its internal O2 and CO2 pressures (PnO2 and PnCO2), temperature (Tn) and observed the sequences of development and the frequency of parental visits. We also measured the rate of O2 uptake (MO2) of the eggs, nestlings and adults. The GnO2 was 10.9 ml[stpd]/(h·Torr). The PnO2 dropped and the PnCO2 increased during incubation and growth to a maximal change of 24 and 23 Torr, respectively. Maximal MO2 of an egg and a nestling were 5.4 and 146 ml[stpd]/h, respectively. The MO2 of an adult at rest and at Tn (27°C) was 90.5 ml[stpd]/h. From clutch size, sequence of nest events, and the above values we have estimated a maximal nest chamber ventilation (Vn) of 0.8 L/min necessary to prevent lowering PnO2 to 74 Torr below ambient PO2. This convection is achieved chiefly by the parental feeding visits (up to 40/h). 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