Evidence for cryptic diversity in the “pan-antarctic” springtail friesea antarctica and the description of two new species
- Carapelli, Antonio, Greenslade, Penelope, Nardi, Francesco, Leo, Chiara, Convey, Peter, Frati, Francesco, Fanciulli, Paolo
- Authors: Carapelli, Antonio , Greenslade, Penelope , Nardi, Francesco , Leo, Chiara , Convey, Peter , Frati, Francesco , Fanciulli, Paolo
- Date: 2020
- Type: Text , Journal article
- Relation: Insects Vol. 11, no. 3 (2020), p.
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- Description: The invertebrate terrestrial fauna of Antarctica is being investigated with increasing interest to discover how life interacts with the extreme polar environment and how millions of years of evolution have shaped their biodiversity. Classical taxonomic approaches, complemented by molecular tools, are improving our understanding of the systematic relationships of some species, changing the nomenclature of taxa and challenging the taxonomic status of others. The springtail Friesea grisea has previously been described as the only species with a “pan-Antarctic” distribution. However, recent genetic comparisons have pointed to another scenario. The latest morphological study has confined F. grisea to the sub-Antarctic island of South Georgia, from which it was originally described, and resurrected F. antarctica as a congeneric species occurring on the continental mainland. Molecular data demonstrate that populations of this taxon, ostensibly occurring across Maritime and Continental Antarctica, as well as on some offshore islands, are evolutionarily isolated and divergent and cannot be included within a single species. The present study, combining morphological with molecular data, attempts to validate this hypothesis and challenges the taxonomic status of F. antarctica, suggesting that two additional new species, described here as Friesea gretae sp. nov. and Friesea propria sp. nov., are present in Continental Antarctica. © 2020 by the authors. Licensee MDPI, Basel, Switzerland.
- Authors: Carapelli, Antonio , Greenslade, Penelope , Nardi, Francesco , Leo, Chiara , Convey, Peter , Frati, Francesco , Fanciulli, Paolo
- Date: 2020
- Type: Text , Journal article
- Relation: Insects Vol. 11, no. 3 (2020), p.
- Full Text:
- Reviewed:
- Description: The invertebrate terrestrial fauna of Antarctica is being investigated with increasing interest to discover how life interacts with the extreme polar environment and how millions of years of evolution have shaped their biodiversity. Classical taxonomic approaches, complemented by molecular tools, are improving our understanding of the systematic relationships of some species, changing the nomenclature of taxa and challenging the taxonomic status of others. The springtail Friesea grisea has previously been described as the only species with a “pan-Antarctic” distribution. However, recent genetic comparisons have pointed to another scenario. The latest morphological study has confined F. grisea to the sub-Antarctic island of South Georgia, from which it was originally described, and resurrected F. antarctica as a congeneric species occurring on the continental mainland. Molecular data demonstrate that populations of this taxon, ostensibly occurring across Maritime and Continental Antarctica, as well as on some offshore islands, are evolutionarily isolated and divergent and cannot be included within a single species. The present study, combining morphological with molecular data, attempts to validate this hypothesis and challenges the taxonomic status of F. antarctica, suggesting that two additional new species, described here as Friesea gretae sp. nov. and Friesea propria sp. nov., are present in Continental Antarctica. © 2020 by the authors. Licensee MDPI, Basel, Switzerland.
The fate of the non-native Collembolon, Hypogastrura viatica, at the southern extent of its introduced range in Antarctica
- Hughes, Kevin, Greenslade, Penelope, Convey, Peter
- Authors: Hughes, Kevin , Greenslade, Penelope , Convey, Peter
- Date: 2017
- Type: Text , Journal article
- Relation: Polar Biology Vol. 40, no. 10 (2017), p. 2127-2131
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- Description: Invasive species present a risk to Antarctic ecosystems by altering community structure and function. Reports of non-native invertebrates are increasing at Antarctic sites subject to tourism industry and national operator activity. Furthermore, dispersal of existing non-native species to other Antarctic sites may greatly expand their distributions and increase the spatial scale of potential impacts. Consequently, non-native species occurring near logistical hubs present an enhanced risk. The non-native Collembolon, Hypogastrura viatica, was introduced to Léonie Island, Ryder Bay, near the logistical hub of Rothera Research Station, Rothera Point, Adelaide Island, at some point before 1993, but no attempt had been made to assess the extent of its distribution in the local area. In this study, we surveyed the regularly frequented islands of Ryder Bay and Rothera Point to attempt to assess the continued presence and distribution of this species. Hypogastrura viatica was not identified amongst the 36,796 Collembola specimens extracted from 138 samples taken from the islands and Rothera Point. With no evidence of the continued presence of this non-native Collembolon in the local area, either H. viatica has become extinct or has such a restricted spatial distribution that our monitoring programme failed to detect it. In light of these results, existing local biosecurity measures will be maintained as a precautionary measure to reduce the risk of further anthropogenic dispersal of this potentially invasive Collembolon as well as of any other species imported unintentionally in future. © 2017, Springer-Verlag Berlin Heidelberg.
- Authors: Hughes, Kevin , Greenslade, Penelope , Convey, Peter
- Date: 2017
- Type: Text , Journal article
- Relation: Polar Biology Vol. 40, no. 10 (2017), p. 2127-2131
- Full Text:
- Reviewed:
- Description: Invasive species present a risk to Antarctic ecosystems by altering community structure and function. Reports of non-native invertebrates are increasing at Antarctic sites subject to tourism industry and national operator activity. Furthermore, dispersal of existing non-native species to other Antarctic sites may greatly expand their distributions and increase the spatial scale of potential impacts. Consequently, non-native species occurring near logistical hubs present an enhanced risk. The non-native Collembolon, Hypogastrura viatica, was introduced to Léonie Island, Ryder Bay, near the logistical hub of Rothera Research Station, Rothera Point, Adelaide Island, at some point before 1993, but no attempt had been made to assess the extent of its distribution in the local area. In this study, we surveyed the regularly frequented islands of Ryder Bay and Rothera Point to attempt to assess the continued presence and distribution of this species. Hypogastrura viatica was not identified amongst the 36,796 Collembola specimens extracted from 138 samples taken from the islands and Rothera Point. With no evidence of the continued presence of this non-native Collembolon in the local area, either H. viatica has become extinct or has such a restricted spatial distribution that our monitoring programme failed to detect it. In light of these results, existing local biosecurity measures will be maintained as a precautionary measure to reduce the risk of further anthropogenic dispersal of this potentially invasive Collembolon as well as of any other species imported unintentionally in future. © 2017, Springer-Verlag Berlin Heidelberg.
Global Collembola on Deception Island
- Greenslade, Penelope, Potapov, Mikhail, Russell, David, Convey, Peter
- Authors: Greenslade, Penelope , Potapov, Mikhail , Russell, David , Convey, Peter
- Date: 2012
- Type: Text , Journal article
- Relation: Journal of Insect Science Vol. 12, no. 111 (2012), p. 1-16
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- Description: Three new non-indigenous springtail species are recorded in recent collections made on Deception Island, South Shetland Islands, maritime Antarctic: Deuteraphorura (Deuteraphorura) cebennaria (Gisin) (Collembola: Onychiuridae), Mesaphorura macrochaeta Rusek (Tullbergiidae), and Proisotoma minuta Axelson (Isotomidae). One of these, D. (D.) cebennaria, is described. Additionally, two new indigenous species, Mesaphorura macrochaeta Rusek and Proisotoma minuta Axelson, are also recorded. The total number of Collembola species now known from the island is 14, comprised of eight native species and six non-indigenous species. This number of non-indigenous species recorded at Deception Island compares with only a single non-indigenous springtail recorded at any other maritime or continental Antarctic location. The reason underlying this high level of occurrence of non-indigenous species on Deception Island is likely to be a combination of the island's high level of human visitation and the presence of relatively benign terrestrial habitats associated with areas of geothermal activity. Two of the new records represent species recently assessed as being of the highest risk to become invaders in the less extreme environments of the subantarctic, thereby emphasising the importance and urgency of adopting and applying effective biosecurity measures to protect the unique and vulnerable ecosystems of this region. Also documented are the impacts on the soil fauna of the island from human trampling, which drastically reduced densities of both native and non-indigenous species to 1% of the abundance typical of non-trampled sites.
- Description: 2003010796
- Authors: Greenslade, Penelope , Potapov, Mikhail , Russell, David , Convey, Peter
- Date: 2012
- Type: Text , Journal article
- Relation: Journal of Insect Science Vol. 12, no. 111 (2012), p. 1-16
- Full Text:
- Reviewed:
- Description: Three new non-indigenous springtail species are recorded in recent collections made on Deception Island, South Shetland Islands, maritime Antarctic: Deuteraphorura (Deuteraphorura) cebennaria (Gisin) (Collembola: Onychiuridae), Mesaphorura macrochaeta Rusek (Tullbergiidae), and Proisotoma minuta Axelson (Isotomidae). One of these, D. (D.) cebennaria, is described. Additionally, two new indigenous species, Mesaphorura macrochaeta Rusek and Proisotoma minuta Axelson, are also recorded. The total number of Collembola species now known from the island is 14, comprised of eight native species and six non-indigenous species. This number of non-indigenous species recorded at Deception Island compares with only a single non-indigenous springtail recorded at any other maritime or continental Antarctic location. The reason underlying this high level of occurrence of non-indigenous species on Deception Island is likely to be a combination of the island's high level of human visitation and the presence of relatively benign terrestrial habitats associated with areas of geothermal activity. Two of the new records represent species recently assessed as being of the highest risk to become invaders in the less extreme environments of the subantarctic, thereby emphasising the importance and urgency of adopting and applying effective biosecurity measures to protect the unique and vulnerable ecosystems of this region. Also documented are the impacts on the soil fauna of the island from human trampling, which drastically reduced densities of both native and non-indigenous species to 1% of the abundance typical of non-trampled sites.
- Description: 2003010796
Exotic Collembola on subantarctic islands : Pathways, origins and biology
- Greenslade, Penelope, Convey, Peter
- Authors: Greenslade, Penelope , Convey, Peter
- Date: 2011
- Type: Text , Journal article
- Relation: Biological Invasions Vol.14, no.2 (2012), p. 405-417
- Full Text: false
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- Description: Three exotic species of Collembola are here identified in collections made during surveys on subantarctic South Georgia in the summers of 2005/2006 and 2009/2010. Previously, only two exotic species of Collembola were known from the island. Increased visitation by tourists, research and maintenance personnel seems an obvious cause despite strict quarantine controls imposed on all visitors. The biology, habitat and distribution of the new species records indicated that fresh vegetables, imported in past years, were their likely means of dispersal to the island. A risk analysis based on their current distribution and ecology was conducted for exotic collembolan species that could invade South Georgia. Pathway analysis of the species with the highest risk scores suggested additional quarantine management protocols could include fumigation of imported fresh food, and this is recommended to minimise the risk of further invasions. A review of exotic Collembola in the Antarctic and subantarctic is provided and the biological traits of Collembola are discussed in relation to their invasion potential. © 2011 Springer Science+Business Media B.V.
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