The short life cycle of Acutuncus antarcticus (Tardigrada) as adaptation to Antarctic environment
The climate global change is altering the tropospheric ozone budget increasing harmful ultraviolet (UV) radiation with consequences on human and ecosystem health. Antarctic micrometazoans are particularly vulnerable to the synergic effects of increasing temperature and UV radiation as their growing...
| Main Authors: | , , , |
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| Other Authors: | , , , , |
| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
Grifo
2014
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| Subjects: | |
| Online Access: | http://hdl.handle.net/11380/1062228 |
| _version_ | 1835015848628060160 |
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| author | GIOVANNINI, ILARIA REBECCHI, Lorena GUIDETTI, Roberto ALTIERO, Tiziana |
| author2 | Corriero Giovannini, Ilaria Rebecchi, Lorena Guidetti, Roberto Altiero, Tiziana |
| author_facet | GIOVANNINI, ILARIA REBECCHI, Lorena GUIDETTI, Roberto ALTIERO, Tiziana |
| author_sort | GIOVANNINI, ILARIA |
| collection | Unknown |
| description | The climate global change is altering the tropospheric ozone budget increasing harmful ultraviolet (UV) radiation with consequences on human and ecosystem health. Antarctic micrometazoans are particularly vulnerable to the synergic effects of increasing temperature and UV radiation as their growing season matches with the spring period of ozone depletion. The roles that phenotypic plasticity and genotypic evolution play in whether Antarctic organisms can cope with these environmental changes are not fully understood. Tardigrades represent one of the main terrestrial components of Antarctica fauna in terms of distribution, number of specimens and colonized substrates. Studies on adults of the eutardigrade Acutuncus antarcticus, one of the most abundant species in Antarctic bryophytes and freshwater sediments, showed that they survived to experimental exposition to increased temperature and UV radiation. These results suggest that A. antarcticus could survive to possible environmental changes. To test this hypothesis we firstly needed to know its life history traits, never studied before, in order to carry out further experiments on stress resistance of eggs and juveniles. Cultures were started using single specimens of A. antarcticus collected from a temporary freshwater pond at the Italian Antarctic base at Victoria Land. Animals were fed with the algae Chlorococcus sp., and reared at 14°C and 12h/12h L/D. A. antarcticus lays freely (rarely within exuvium) eggs hatching in 7-9 days. Newborns molt 2-3 times before their first oviposition that occurs at the age of 12-15 days. Successive ovipositions occur once a week (for 2-3 months) and are always preceded from a molting. The number of laid eggs (1-4 per oviposition) is a function of the female age. Throughout lifespan (3-4 months) each female lays up to 20 eggs. Individually reared newborns reached sexual maturity and, maintained isolated, laid eggs able to hatch. Males were never seen. Therefore this population reproduces via thelytokous parthenogenesis. The ... |
| format | Article in Journal/Newspaper |
| genre | Acutuncus antarcticus Antarc* Antarctic Antarctica antarcticus Victoria Land |
| genre_facet | Acutuncus antarcticus Antarc* Antarctic Antarctica antarcticus Victoria Land |
| geographic | Antarctic Victoria Land |
| geographic_facet | Antarctic Victoria Land |
| id | ftunivmodena:oai:iris.unimore.it:11380/1062228 |
| institution | Open Polar |
| language | English |
| op_collection_id | ftunivmodena |
| op_relation | ispartofbook:Proceedings of the 75th National Conference of the Unione Zoologica Italiana 75° Congresso dell'Unione Zoologica Italiana volume:36 firstpage:118 lastpage:118 journal:THALASSIA SALENTINA http://hdl.handle.net/11380/1062228 |
| publishDate | 2014 |
| publisher | Grifo |
| record_format | openpolar |
| spelling | ftunivmodena:oai:iris.unimore.it:11380/1062228 2025-06-15T14:05:31+00:00 The short life cycle of Acutuncus antarcticus (Tardigrada) as adaptation to Antarctic environment GIOVANNINI, ILARIA REBECCHI, Lorena GUIDETTI, Roberto ALTIERO, Tiziana Corriero Giovannini, Ilaria Rebecchi, Lorena Guidetti, Roberto Altiero, Tiziana 2014 STAMPA http://hdl.handle.net/11380/1062228 eng eng Grifo country:ITA place:Lecce ispartofbook:Proceedings of the 75th National Conference of the Unione Zoologica Italiana 75° Congresso dell'Unione Zoologica Italiana volume:36 firstpage:118 lastpage:118 journal:THALASSIA SALENTINA http://hdl.handle.net/11380/1062228 Life cycle Tardigrada Antarctica info:eu-repo/semantics/article 2014 ftunivmodena 2025-06-04T04:55:37Z The climate global change is altering the tropospheric ozone budget increasing harmful ultraviolet (UV) radiation with consequences on human and ecosystem health. Antarctic micrometazoans are particularly vulnerable to the synergic effects of increasing temperature and UV radiation as their growing season matches with the spring period of ozone depletion. The roles that phenotypic plasticity and genotypic evolution play in whether Antarctic organisms can cope with these environmental changes are not fully understood. Tardigrades represent one of the main terrestrial components of Antarctica fauna in terms of distribution, number of specimens and colonized substrates. Studies on adults of the eutardigrade Acutuncus antarcticus, one of the most abundant species in Antarctic bryophytes and freshwater sediments, showed that they survived to experimental exposition to increased temperature and UV radiation. These results suggest that A. antarcticus could survive to possible environmental changes. To test this hypothesis we firstly needed to know its life history traits, never studied before, in order to carry out further experiments on stress resistance of eggs and juveniles. Cultures were started using single specimens of A. antarcticus collected from a temporary freshwater pond at the Italian Antarctic base at Victoria Land. Animals were fed with the algae Chlorococcus sp., and reared at 14°C and 12h/12h L/D. A. antarcticus lays freely (rarely within exuvium) eggs hatching in 7-9 days. Newborns molt 2-3 times before their first oviposition that occurs at the age of 12-15 days. Successive ovipositions occur once a week (for 2-3 months) and are always preceded from a molting. The number of laid eggs (1-4 per oviposition) is a function of the female age. Throughout lifespan (3-4 months) each female lays up to 20 eggs. Individually reared newborns reached sexual maturity and, maintained isolated, laid eggs able to hatch. Males were never seen. Therefore this population reproduces via thelytokous parthenogenesis. The ... Article in Journal/Newspaper Acutuncus antarcticus Antarc* Antarctic Antarctica antarcticus Victoria Land Unknown Antarctic Victoria Land |
| spellingShingle | Life cycle Tardigrada Antarctica GIOVANNINI, ILARIA REBECCHI, Lorena GUIDETTI, Roberto ALTIERO, Tiziana The short life cycle of Acutuncus antarcticus (Tardigrada) as adaptation to Antarctic environment |
| title | The short life cycle of Acutuncus antarcticus (Tardigrada) as adaptation to Antarctic environment |
| title_full | The short life cycle of Acutuncus antarcticus (Tardigrada) as adaptation to Antarctic environment |
| title_fullStr | The short life cycle of Acutuncus antarcticus (Tardigrada) as adaptation to Antarctic environment |
| title_full_unstemmed | The short life cycle of Acutuncus antarcticus (Tardigrada) as adaptation to Antarctic environment |
| title_short | The short life cycle of Acutuncus antarcticus (Tardigrada) as adaptation to Antarctic environment |
| title_sort | short life cycle of acutuncus antarcticus (tardigrada) as adaptation to antarctic environment |
| topic | Life cycle Tardigrada Antarctica |
| topic_facet | Life cycle Tardigrada Antarctica |
| url | http://hdl.handle.net/11380/1062228 |