Protozoan growth rates in Antarctic lakes
The growth rates of heterotrophic nanoflagellates (HNAN), mixotrophic cryptophytes, dinoflagellates and ciliates in field assemblages from Ace Lake in the Vestfold Hills (eastern Antarctica) and Lakes Fryxell and Hoare (McMurdo Dry Valleys, western Antarctica), were determined during the austral sum...
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| Format: | Article in Journal/Newspaper |
| Language: | English |
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Springer
2000
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| Online Access: | https://doi.org/10.1007/s003009900103 http://ecite.utas.edu.au/49002 |
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ftunivtasecite:oai:ecite.utas.edu.au:49002 2023-05-15T13:40:51+02:00 Protozoan growth rates in Antarctic lakes Laybourn-Parry, J Roberts, EC Bell, EM 2000 https://doi.org/10.1007/s003009900103 http://ecite.utas.edu.au/49002 en eng Springer http://dx.doi.org/10.1007/s003009900103 Laybourn-Parry, J and Roberts, EC and Bell, EM, Protozoan growth rates in Antarctic lakes, Polar Biology, 23, (7) pp. 445-451. ISSN 0722-4060 (2000) [Refereed Article] http://ecite.utas.edu.au/49002 Biological Sciences Microbiology Microbial Ecology Refereed Article PeerReviewed 2000 ftunivtasecite https://doi.org/10.1007/s003009900103 2019-12-13T21:23:45Z The growth rates of heterotrophic nanoflagellates (HNAN), mixotrophic cryptophytes, dinoflagellates and ciliates in field assemblages from Ace Lake in the Vestfold Hills (eastern Antarctica) and Lakes Fryxell and Hoare (McMurdo Dry Valleys, western Antarctica), were determined during the austral summers of 1996/1997 and 1997/1998. The response of the nanoflagellates to temperature differed between lakes in eastern and western Antarctica. In Ace Lake the available bacterial food resources had little impact on growth rate, while temperature imposed an impact, whereas in Lake Hoare increased bacterial food resources elicited an increase in growth rate. However, the incorporation of published data from across Antarctica showed that temperature had the greater effect, but that growth is probably controlled by a suite of factors not solely related to bacterial food resources and temperature. Dinoflagellates had relatively high specific growth rates (0.0057-0.384 h -1 ), which were comparable to Antarctic lake ciliates and to dinoflagellates from warmer, lower latitude locations. Temperature did not appear to impose any significant impact on growth rates. Mixotrophic cryptophytes in Lake Hoare had lower specific growth rates than HNAN (0.0029-0.0059 h -1 and 0.0056-0.0127 h -1 , respectively). They showed a marked seasonal variation in growth rate, which was probably related to photosynthetically active radiation under the ice at different depths in the water column. Ciliates' growth rates showed no relationship between food supply and mean cell volume, but did show a response to temperature. Specific growth rates ranged between 0.0033 and 0.150 h -1 for heterotrophic ciliates, 0.0143 h -1 for a mixotrophic Plagiocampa species and 0.0075 h -1 for the entirely autotrophic ciliate, Mesodinium rubrum. The data indicated that the scope for growth among planktonic Protozoa living in oligotrophic, cold extreme lake ecosystems is limited. These organisms are likely to suffer prolonged physiological stress, which may account for the highly variable growth rates seen within and between Antarctic lakes. Article in Journal/Newspaper Antarc* Antarctic Antarctica McMurdo Dry Valleys Polar Biology eCite UTAS (University of Tasmania) Ace Lake ENVELOPE(78.188,78.188,-68.472,-68.472) Antarctic Austral Fryxell ENVELOPE(163.183,163.183,-77.617,-77.617) Hoare ENVELOPE(162.850,162.850,-77.633,-77.633) Lake Hoare ENVELOPE(162.850,162.850,-77.633,-77.633) McMurdo Dry Valleys Vestfold Vestfold Hills Polar Biology 23 7 445 451 |
| institution |
Open Polar |
| collection |
eCite UTAS (University of Tasmania) |
| op_collection_id |
ftunivtasecite |
| language |
English |
| topic |
Biological Sciences Microbiology Microbial Ecology |
| spellingShingle |
Biological Sciences Microbiology Microbial Ecology Laybourn-Parry, J Roberts, EC Bell, EM Protozoan growth rates in Antarctic lakes |
| topic_facet |
Biological Sciences Microbiology Microbial Ecology |
| description |
The growth rates of heterotrophic nanoflagellates (HNAN), mixotrophic cryptophytes, dinoflagellates and ciliates in field assemblages from Ace Lake in the Vestfold Hills (eastern Antarctica) and Lakes Fryxell and Hoare (McMurdo Dry Valleys, western Antarctica), were determined during the austral summers of 1996/1997 and 1997/1998. The response of the nanoflagellates to temperature differed between lakes in eastern and western Antarctica. In Ace Lake the available bacterial food resources had little impact on growth rate, while temperature imposed an impact, whereas in Lake Hoare increased bacterial food resources elicited an increase in growth rate. However, the incorporation of published data from across Antarctica showed that temperature had the greater effect, but that growth is probably controlled by a suite of factors not solely related to bacterial food resources and temperature. Dinoflagellates had relatively high specific growth rates (0.0057-0.384 h -1 ), which were comparable to Antarctic lake ciliates and to dinoflagellates from warmer, lower latitude locations. Temperature did not appear to impose any significant impact on growth rates. Mixotrophic cryptophytes in Lake Hoare had lower specific growth rates than HNAN (0.0029-0.0059 h -1 and 0.0056-0.0127 h -1 , respectively). They showed a marked seasonal variation in growth rate, which was probably related to photosynthetically active radiation under the ice at different depths in the water column. Ciliates' growth rates showed no relationship between food supply and mean cell volume, but did show a response to temperature. Specific growth rates ranged between 0.0033 and 0.150 h -1 for heterotrophic ciliates, 0.0143 h -1 for a mixotrophic Plagiocampa species and 0.0075 h -1 for the entirely autotrophic ciliate, Mesodinium rubrum. The data indicated that the scope for growth among planktonic Protozoa living in oligotrophic, cold extreme lake ecosystems is limited. These organisms are likely to suffer prolonged physiological stress, which may account for the highly variable growth rates seen within and between Antarctic lakes. |
| format |
Article in Journal/Newspaper |
| author |
Laybourn-Parry, J Roberts, EC Bell, EM |
| author_facet |
Laybourn-Parry, J Roberts, EC Bell, EM |
| author_sort |
Laybourn-Parry, J |
| title |
Protozoan growth rates in Antarctic lakes |
| title_short |
Protozoan growth rates in Antarctic lakes |
| title_full |
Protozoan growth rates in Antarctic lakes |
| title_fullStr |
Protozoan growth rates in Antarctic lakes |
| title_full_unstemmed |
Protozoan growth rates in Antarctic lakes |
| title_sort |
protozoan growth rates in antarctic lakes |
| publisher |
Springer |
| publishDate |
2000 |
| url |
https://doi.org/10.1007/s003009900103 http://ecite.utas.edu.au/49002 |
| long_lat |
ENVELOPE(78.188,78.188,-68.472,-68.472) ENVELOPE(163.183,163.183,-77.617,-77.617) ENVELOPE(162.850,162.850,-77.633,-77.633) ENVELOPE(162.850,162.850,-77.633,-77.633) |
| geographic |
Ace Lake Antarctic Austral Fryxell Hoare Lake Hoare McMurdo Dry Valleys Vestfold Vestfold Hills |
| geographic_facet |
Ace Lake Antarctic Austral Fryxell Hoare Lake Hoare McMurdo Dry Valleys Vestfold Vestfold Hills |
| genre |
Antarc* Antarctic Antarctica McMurdo Dry Valleys Polar Biology |
| genre_facet |
Antarc* Antarctic Antarctica McMurdo Dry Valleys Polar Biology |
| op_relation |
http://dx.doi.org/10.1007/s003009900103 Laybourn-Parry, J and Roberts, EC and Bell, EM, Protozoan growth rates in Antarctic lakes, Polar Biology, 23, (7) pp. 445-451. ISSN 0722-4060 (2000) [Refereed Article] http://ecite.utas.edu.au/49002 |
| op_doi |
https://doi.org/10.1007/s003009900103 |
| container_title |
Polar Biology |
| container_volume |
23 |
| container_issue |
7 |
| container_start_page |
445 |
| op_container_end_page |
451 |
| _version_ |
1766141314738421760 |