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2. A molecular-based identification resource for the arthropods of Finland

Author

Roslin, T. (Tomas), Somervuo, P. (Panu), Pentinsaari, M. (Mikko), Hebert, P. D. (Paul D. N.), Agda, J. (Jireh), Ahlroth, P. (Petri), Anttonen, P. (Perttu), Aspi, J. (Jouni), Blagoev, G. (Gergin), Blanco, S. (Santiago), Chan, D. (Dean), Clayhills, T. (Tom), deWaard, J. (Jeremy), deWaard, S. (Stephanie), Elliot, T. (Tyler), Elo, R. (Riikka), Haapala, S. (Sami), Helve, E. (Eero), Ilmonen, J. (Jari), Hirvonen, P. (Petri), Ho, C. (Chris), Itämies, J. (Juhani), Ivanov, V. (Vladislav), Jakovlev, J. (Jevgeni), Juslen, A. (Aino), Jussila, R. (Reijo), Kahanpää, J. (Jere), Kaila, L. (Lauri), Kaitila, J.-P. (Jari-Pekka), Kakko, A. (Ari), Kakko, I. (Iiro), Karhu, A. (Ali), Karjalainen, S. (Sami), Kjaerandsen, J. (Jostein), Koskinen, J. (Janne), Laasonen, E. M. (Erkki M.), Laasonen, L. (Leena), Laine, E. (Erkka), Lampila, P. (Petri), Levesque-Beaudin, V. (Valerie), Lu, L. (Liuqiong), Lähteenaro, M. (Meri), Majuri, P. (Pekka), Malmberg, S. (Sampsa), Manjunath, R. (Ramya), Martikainen, P. (Petri), Mattila, J. (Jaakko), McKeown, J. (Jaclyn), Metsälä, P. (Petri), Miklasevskaja, M. (Margarita), Miller, M. (Meredith), Miskie, R. (Renee), Muinonen, A. (Arto), Mukkala, V.-M. (Veli-Matti), Naik, S. (Suresh), Nikolova, N. (Nadia), Nupponen, K. (Kari), Ovaskainen, O. (Otso), Österblad, I. (Ika), Paasivirta, L. (Lauri), Pajunen, T. (Timo), Parkko, P. (Petri), Paukkunen, J. (Juho), Penttinen, R. (Ritva), Perez, K. (Kate), Pohjoismäki, J. (Jaakko), Prosser, S. (Sean), Raekunnas, M. (Martti), Rahulan, M. (Miduna), Rannisto, M. (Meeri), Ratnasingham, S. (Sujeevan), Raukko, P. (Pekka), Rinne, A. (Aki), Rintala, T. (Teemu), Miranda Romo, S. (Susana), Salmela, J. (Jukka), Salokannel, J. (Juha), Savolainen, R. (Riitta), Schulman, L. (Leif), Sihvonen, P. (Pasi), Soliman, D. (Dina), Sones, J. (Jayme), Steinke, C. (Claudia), Stahls, G. (Gunilla), Tabell, J. (Jukka), Tiusanen, M. (Mikko), Varkonyi, G. (Gergely), Vesterinen, E. J. (Eero J.), Viitanen, E. (Esko), Vikberg, V. (Veli), Viitasaari, M. (Matti), Vilen, J. (Jussi), Warne, C. (Connor), Wei, C. (Catherine), Winqvist, K. (Kaj), Zakharov, E. (Evgeny), Mutanen, M. (Marko), Roslin, T. (Tomas), Somervuo, P. (Panu), Pentinsaari, M. (Mikko), Hebert, P. D. (Paul D. N.), Agda, J. (Jireh), Ahlroth, P. (Petri), Anttonen, P. (Perttu), Aspi, J. (Jouni), Blagoev, G. (Gergin), Blanco, S. (Santiago), Chan, D. (Dean), Clayhills, T. (Tom), deWaard, J. (Jeremy), deWaard, S. (Stephanie), Elliot, T. (Tyler), Elo, R. (Riikka), Haapala, S. (Sami), Helve, E. (Eero), Ilmonen, J. (Jari), Hirvonen, P. (Petri), Ho, C. (Chris), Itämies, J. (Juhani), Ivanov, V. (Vladislav), Jakovlev, J. (Jevgeni), Juslen, A. (Aino), Jussila, R. (Reijo), Kahanpää, J. (Jere), Kaila, L. (Lauri), Kaitila, J.-P. (Jari-Pekka), Kakko, A. (Ari), Kakko, I. (Iiro), Karhu, A. (Ali), Karjalainen, S. (Sami), Kjaerandsen, J. (Jostein), Koskinen, J. (Janne), Laasonen, E. M. (Erkki M.), Laasonen, L. (Leena), Laine, E. (Erkka), Lampila, P. (Petri), Levesque-Beaudin, V. (Valerie), Lu, L. (Liuqiong), Lähteenaro, M. (Meri), Majuri, P. (Pekka), Malmberg, S. (Sampsa), Manjunath, R. (Ramya), Martikainen, P. (Petri), Mattila, J. (Jaakko), McKeown, J. (Jaclyn), Metsälä, P. (Petri), Miklasevskaja, M. (Margarita), Miller, M. (Meredith), Miskie, R. (Renee), Muinonen, A. (Arto), Mukkala, V.-M. (Veli-Matti), Naik, S. (Suresh), Nikolova, N. (Nadia), Nupponen, K. (Kari), Ovaskainen, O. (Otso), Österblad, I. (Ika), Paasivirta, L. (Lauri), Pajunen, T. (Timo), Parkko, P. (Petri), Paukkunen, J. (Juho), Penttinen, R. (Ritva), Perez, K. (Kate), Pohjoismäki, J. (Jaakko), Prosser, S. (Sean), Raekunnas, M. (Martti), Rahulan, M. (Miduna), Rannisto, M. (Meeri), Ratnasingham, S. (Sujeevan), Raukko, P. (Pekka), Rinne, A. (Aki), Rintala, T. (Teemu), Miranda Romo, S. (Susana), Salmela, J. (Jukka), Salokannel, J. (Juha), Savolainen, R. (Riitta), Schulman, L. (Leif), Sihvonen, P. (Pasi), Soliman, D. (Dina), Sones, J. (Jayme), Steinke, C. (Claudia), Stahls, G. (Gunilla), Tabell, J. (Jukka), Tiusanen, M. (Mikko), Varkonyi, G. (Gergely), Vesterinen, E. J. (Eero J.), Viitanen, E. (Esko), Vikberg, V. (Veli), Viitasaari, M. (Matti), Vilen, J. (Jussi), Warne, C. (Connor), Wei, C. (Catherine), Winqvist, K. (Kaj), Zakharov, E. (Evgeny), and Mutanen, M. (Marko)

Abstract

To associate specimens identified by molecular characters to other biological knowledge, we need reference sequences annotated by Linnaean taxonomy. In this study, we (1) report the creation of a comprehensive reference library of DNA barcodes for the arthropods of an entire country (Finland), (2) publish this library, and (3) deliver a new identification tool for insects and spiders, as based on this resource. The reference library contains mtDNA COI barcodes for 11,275 (43%) of 26,437 arthropod species known from Finland, including 10,811 (45%) of 23,956 insect species. To quantify the improvement in identification accuracy enabled by the current reference library, we ran 1000 Finnish insect and spider species through the Barcode of Life Data system (BOLD) identification engine. Of these, 91% were correctly assigned to a unique species when compared to the new reference library alone, 85% were correctly identified when compared to BOLD with the new material included, and 75% with the new material excluded. To capitalize on this resource, we used the new reference material to train a probabilistic taxonomic assignment tool, FinPROTAX, scoring high success. For the full-length barcode region, the accuracy of taxonomic assignments at the level of classes, orders, families, subfamilies, tribes, genera, and species reached 99.9%, 99.9%, 99.8%, 99.7%, 99.4%, 96.8%, and 88.5%, respectively. The FinBOL arthropod reference library and FinPROTAX are available through the Finnish Biodiversity Information Facility (www.laji.fi) at https://laji.fi/en/theme/protax. Overall, the FinBOL investment represents a massive capacity-transfer from the taxonomic community of Finland to all sectors of society.

Published
2022

5. Highly variable species distribution models in a subarctic stream metacommunity:patterns, mechanisms and implications

Author

de Mendoza, G. (Guillermo), Kaivosoja, R. (Riikka), Grönroos, M. (Mira), Hjort, J. (Jan), Ilmonen, J. (Jari), Kärnä, O. (Olli‐Matti), Paasivirta, L. (Lauri), Tokola, L. (Laura), and Heino, J. (Jani)

Subjects
stream macroinvertebrates, comparative analysis, beta regression, metacommunity theory, insects, subarctic streams, single-species distribution models
Abstract

1. Metacommunity theory focuses on assembly patterns in ecological communities, originally exemplified through four different, yet non‐exclusive, perspectives: patch dynamics, species sorting, source‐sink dynamics, and neutral theory. More recently, three exclusive components have been proposed to describe a different metacommunity framework: habitat heterogeneity, species equivalence, and dispersal. Here, we aim at evaluating the insect metacommunity of a subarctic stream network under these two different frameworks. 2. We first modelled the presence/absence of 47 stream insects in northernmost Finland, using binomial generalised linear models (GLMs). The deviance explained by pure local environmental (E), spatial (S), and climatic variables (C) was then analysed across species using beta regression. In this comparative analysis, site occupancy, as well as taxonomic and biological trait vectors obtained from principal coordinate analysis, were used as predictor variables. 3. Single‐species distributions were better explained by in‐stream environmental and spatial factors than by climatic forcing, but in a highly variable fashion. This variability was difficult to relate to the taxonomic relatedness among species or their biological trait similarity. Site occupancy, however, was related to model performance of the binomial GLMs based on spatial effects: as populations are likely to be better connected for common species due to their near ubiquity, spatial factors may also explain better their distributions. 4. According to the classical four‐perspective framework, the observation of both environmental and spatial effects suggests a role for either mass effects or species sorting constrained by dispersal limitation, or both. Taxonomic and biological traits, including the different dispersal capability of species, were scarcely important, which undermines the patch dynamics perspective, based on differences in dispersal ability between species. The highly variable performance of models makes the reliance on an entirely neutral framework unrealistic as well. According to the three‐component framework, our results suggest that the stream insect metacommunity is shaped by the effect of habitat heterogeneity (supporting both species‐sorting and mass effects), rather than species equivalence or dispersal limitation. 5. While the relative importance of the source‐sink dynamics perspective or the species‐sorting paradigm cannot be deciphered with the data at our disposal, we can conclude that habitat heterogeneity is an important driver shaping species distributions and insect assemblages in subarctic stream metacommunities. These results exemplify that the use of the three‐component metacommunity framework may be more useful than the classical four perspective paradigm in analysing metacommunities. Our findings also provide support for conservation strategies based on the preservation of heterogeneous habitats in a metacommunity context.

Published
2018

6. Identifying taxonomic and functional surrogates for spring biodiversity conservation

Author

Jyväsjärvi, J., Virtanen, Risto, Ilmonen, J., Paasivirta, L., Muotka, T., Jyväsjärvi, J., Virtanen, Risto, Ilmonen, J., Paasivirta, L., and Muotka, T.

Abstract

Surrogate approaches are widely used to estimate overall taxonomic diversity for conservation planning. Surrogate taxa are frequently selected based on rarity or charisma, whereas selection through statistical modeling has been applied rarely. We used boosted‐regression‐tree models (BRT) fitted to biological data from 165 springs to identify bryophyte and invertebrate surrogates for taxonomic and functional diversity of boreal springs. We focused on these 2 groups because they are well known and abundant in most boreal springs. The best indicators of taxonomic versus functional diversity differed. The bryophyte Bryum weigelii and the chironomid larva Paratrichocladius skirwithensis best indicated taxonomic diversity, whereas the isopod Asellus aquaticus and the chironomid Macropelopia spp. were the best surrogates of functional diversity. In a scoring algorithm for priority‐site selection, taxonomic surrogates performed only slightly better than random selection for all spring‐dwelling taxa, but they were very effective in representing spring specialists, providing a distinct improvement over random solutions. However, the surrogates for taxonomic diversity represented functional diversity poorly and vice versa. When combined with cross‐taxon complementarity analyses, surrogate selection based on statistical modeling provides a promising approach for identifying groundwater‐dependent ecosystems of special conservation value, a key requirement of the EU Water Framework Directive.

Published
2018

7. Establishing a community-wide DNA barcode library as a new tool for arctic research

Author

Wirta, H., Várkonyi, G., Rasmussen, C., Kaartinen, R., Schmidt, N. M., Hebert, P. D. N., Barták, M., Blagoev, G., Disney, H., Ertl, S., Gjelstrup, Peter, Gwiazdowicz, D. J., Huldén, L., Ilmonen, J., Jakovlev, J., Jaschhof, M., Kahanpää, J., Kankaanpää, T., Krogh, P. H., Labbee, R., Lettner, C., Michelsen, Verner, Nielsen, S. A., Nielsen, T. R., Paasivirta, L., Pedersen, S., Pohjoismäki, J., Salmela, J., Vilkamaa, P., Väre, H., von Tschirnhaus, M., Roslin, T., Wirta, H., Várkonyi, G., Rasmussen, C., Kaartinen, R., Schmidt, N. M., Hebert, P. D. N., Barták, M., Blagoev, G., Disney, H., Ertl, S., Gjelstrup, Peter, Gwiazdowicz, D. J., Huldén, L., Ilmonen, J., Jakovlev, J., Jaschhof, M., Kahanpää, J., Kankaanpää, T., Krogh, P. H., Labbee, R., Lettner, C., Michelsen, Verner, Nielsen, S. A., Nielsen, T. R., Paasivirta, L., Pedersen, S., Pohjoismäki, J., Salmela, J., Vilkamaa, P., Väre, H., von Tschirnhaus, M., and Roslin, T.

Abstract

DNA sequences offer powerful tools for describing the members and interactions of natural communities. In this study, we establish the to-date most comprehensive library of DNA barcodes for a terrestrial site, including all known macroscopic animals and vascular plants of an intensively studied area of the High Arctic, the Zackenberg Valley in Northeast Greenland. To demonstrate its utility, we apply the library to identify nearly 20 000 arthropod individuals from two Malaise traps, each operated for two summers. Drawing on this material, we estimate the coverage of previous morphology-based species inventories, derive a snapshot of faunal turnover in space and time and describe the abundance and phenology of species in the rapidly changing arctic environment. Overall, 403 terrestrial animal and 160 vascular plant species were recorded by morphology-based techniques. DNA barcodes (CO1) offered high resolution in discriminating among the local animal taxa, with 92% of morphologically distinguishable taxa assigned to unique Barcode Index Numbers (BINs) and 93% to monophyletic clusters. For vascular plants, resolution was lower, with 54% of species forming monophyletic clusters based on barcode regions rbcLa and ITS2. Malaise catches revealed 122 BINs not detected by previous sampling and DNA barcoding. The insect community was dominated by a few highly abundant taxa. Even closely related taxa differed in phenology, emphasizing the need for species-level resolution when describing ongoing shifts in arctic communities and ecosystems. The DNA barcode library now established for Zackenberg offers new scope for such explorations, and for the detailed dissection of interspecific interactions throughout the community.

Published
2016

8. Climate-induced warming imposes a threat to north European spring ecosystems

Author

Jyväsjärvi, J., Marttila, H., Rossi, P. M., Ala-Aho, P., Olofsson, Bo, Nisell, J., Backman, B., Ilmonen, J., Virtanen, R., Paasivirta, L., Britschgi, R., Kløve, B., Muotka, T., Jyväsjärvi, J., Marttila, H., Rossi, P. M., Ala-Aho, P., Olofsson, Bo, Nisell, J., Backman, B., Ilmonen, J., Virtanen, R., Paasivirta, L., Britschgi, R., Kløve, B., and Muotka, T.

Abstract

Interest in climate change effects on groundwater has increased dramatically during the last decade. The mechanisms of climate-related groundwater depletion have been thoroughly reviewed, but the influence of global warming on groundwater-dependent ecosystems (GDEs) remains poorly known. Here we report long-term water temperature trends in 66 northern European cold-water springs. A vast majority of the springs (82%) exhibited a significant increase in water temperature during 1968-2012. Mean spring water temperatures were closely related to regional air temperature and global radiative forcing of the corresponding year. Based on three alternative climate scenarios representing low (RCP2.6), intermediate (RCP6) and high-emission scenarios (RCP8.5), we estimate that increase in mean spring water temperature in the region is likely to range from 0.67 °C (RCP2.6) to 5.94 °C (RCP8.5) by 2086. According to the worst-case scenario, water temperature of these originally cold-water ecosystems (regional mean in the late 1970s: 4.7 °C) may exceed 12 °C by the end of this century. We used bryophyte and macroinvertebrate species data from Finnish springs and spring-fed streams to assess ecological impacts of the predicted warming. An increase in spring water temperature by several degrees will likely have substantial biodiversity impacts, causing regional extinction of native, cold-stenothermal spring specialists, whereas species diversity of headwater generalists is likely to increase. Even a slight (by 1 °C) increase in water temperature may eliminate endemic spring species, thus altering bryophyte and macroinvertebrate assemblages of spring-fed streams. Climate change-induced warming of northern regions may thus alter species composition of the spring biota and cause regional homogenization of biodiversity in headwater ecosystems., QC 20160209

Published
2015
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9. Establishing a community-wide DNA barcode library as a new tool for arctic research

Author

Wirta, H., primary, Várkonyi, G., additional, Rasmussen, C., additional, Kaartinen, R., additional, Schmidt, N. M., additional, Hebert, P. D. N., additional, Barták, M., additional, Blagoev, G., additional, Disney, H., additional, Ertl, S., additional, Gjelstrup, P., additional, Gwiazdowicz, D. J., additional, Huldén, L., additional, Ilmonen, J., additional, Jakovlev, J., additional, Jaschhof, M., additional, Kahanpää, J., additional, Kankaanpää, T., additional, Krogh, P. H., additional, Labbee, R., additional, Lettner, C., additional, Michelsen, V., additional, Nielsen, S. A., additional, Nielsen, T. R., additional, Paasivirta, L., additional, Pedersen, S., additional, Pohjoismäki, J., additional, Salmela, J., additional, Vilkamaa, P., additional, Väre, H., additional, von Tschirnhaus, M., additional, and Roslin, T., additional

Published
2015
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12. A molecular-based identification resource for the arthropods of Finland.

Author

Roslin T, Somervuo P, Pentinsaari M, Hebert PDN, Agda J, Ahlroth P, Anttonen P, Aspi J, Blagoev G, Blanco S, Chan D, Clayhills T, deWaard J, deWaard S, Elliot T, Elo R, Haapala S, Helve E, Ilmonen J, Hirvonen P, Ho C, Itämies J, Ivanov V, Jakovlev J, Juslén A, Jussila R, Kahanpää J, Kaila L, Jari-PekkaKaitila, Kakko A, Kakko I, Karhu A, Karjalainen S, Kjaerandsen J, Koskinen J, Laasonen EM, Laasonen L, Laine E, Lampila P, Levesque-Beaudin V, Lu L, Lähteenaro M, Majuri P, Malmberg S, Manjunath R, Martikainen P, Mattila J, McKeown J, Metsälä P, Miklasevskaja M, Miller M, Miskie R, Muinonen A, Veli-MattiMukkala, Naik S, Nikolova N, Nupponen K, Ovaskainen O, Österblad I, Paasivirta L, Pajunen T, Parkko P, Paukkunen J, Penttinen R, Perez K, Pohjoismäki J, Prosser S, Raekunnas M, Rahulan M, Rannisto M, Ratnasingham S, Raukko P, Rinne A, Rintala T, Miranda Romo S, Salmela J, Salokannel J, Savolainen R, Schulman L, Sihvonen P, Soliman D, Sones J, Steinke C, Ståhls G, Tabell J, Tiusanen M, Várkonyi G, Vesterinen EJ, Viitanen E, Vikberg V, Viitasaari M, Vilen J, Warne C, Wei C, Winqvist K, Zakharov E, and Mutanen M

Subjects
Animals, Biodiversity, DNA Barcoding, Taxonomic, Finland, Gene Library, Arthropods classification
Abstract

To associate specimens identified by molecular characters to other biological knowledge, we need reference sequences annotated by Linnaean taxonomy. In this study, we (1) report the creation of a comprehensive reference library of DNA barcodes for the arthropods of an entire country (Finland), (2) publish this library, and (3) deliver a new identification tool for insects and spiders, as based on this resource. The reference library contains mtDNA COI barcodes for 11,275 (43%) of 26,437 arthropod species known from Finland, including 10,811 (45%) of 23,956 insect species. To quantify the improvement in identification accuracy enabled by the current reference library, we ran 1000 Finnish insect and spider species through the Barcode of Life Data system (BOLD) identification engine. Of these, 91% were correctly assigned to a unique species when compared to the new reference library alone, 85% were correctly identified when compared to BOLD with the new material included, and 75% with the new material excluded. To capitalize on this resource, we used the new reference material to train a probabilistic taxonomic assignment tool, FinPROTAX, scoring high success. For the full-length barcode region, the accuracy of taxonomic assignments at the level of classes, orders, families, subfamilies, tribes, genera, and species reached 99.9%, 99.9%, 99.8%, 99.7%, 99.4%, 96.8%, and 88.5%, respectively. The FinBOL arthropod reference library and FinPROTAX are available through the Finnish Biodiversity Information Facility (www.laji.fi) at https://laji.fi/en/theme/protax. Overall, the FinBOL investment represents a massive capacity-transfer from the taxonomic community of Finland to all sectors of society., (© 2021 The Authors. Molecular Ecology Resources published by John Wiley & Sons Ltd.)

Published
2022
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13. Groundwater contamination and land drainage induce divergent responses in boreal spring ecosystems.

Author

Lehosmaa K, Jyväsjärvi J, Ilmonen J, Rossi PM, Paasivirta L, and Muotka T

Subjects
Finland, Natural Springs, Water Quality, Ecosystem, Groundwater chemistry, Water Pollutants analysis
Abstract

Degradation of freshwater ecosystems has engendered legislative mandates for the protection and management of surface waters while groundwater-dependent ecosystems (GDEs) have received much less attention. This is so despite biodiversity and functioning of GDEs are currently threatened by several anthropogenic stressors, particularly intensified land use and groundwater contamination. We assessed the impacts of land drainage (increased input of dissolved organic carbon, DOC, from peatland drainage) and impaired groundwater chemical quality (NO 3 -N enrichment from agricultural or urban land use) on biodiversity and ecosystem functioning in 20 southern Finnish cold-water springs using several taxonomic and functional measures. Groundwater contamination decreased macroinvertebrate and bacterial diversity and altered their community composition. Changes in macroinvertebrate and bacterial communities along the gradient of water-quality impairment were caused by the replacement of native with new taxa rather than by mere disappearance of some of the original taxa. Also species richness of habitat specialist (but not headwater generalist) bryophytes decreased due to impaired groundwater quality. Periphyton accrual rate showed a subsidy-stress response to elevated nitrate concentrations, with peak values at around 2500 μg L - -N enrichment from agricultural or urban land use) on biodiversity and ecosystem functioning in 20 southern Finnish cold-water springs using several taxonomic and functional measures. Groundwater contamination decreased macroinvertebrate and bacterial diversity and altered their community composition. Changes in macroinvertebrate and bacterial communities along the gradient of water-quality impairment were caused by the replacement of native with new taxa rather than by mere disappearance of some of the original taxa. Also species richness of habitat specialist (but not headwater generalist) bryophytes decreased due to impaired groundwater quality. Periphyton accrual rate showed a subsidy-stress response to elevated nitrate concentrations, with peak values at around 2500 μg L -1 , while drainage-induced spring water brownification (increased DOC) reduced both periphyton accrual and leaf decomposition rates already at very low concentrations. Our results highlight the underutilized potential of ecosystem-level functional measures in GDE bioassessment as they seem to respond to the first signs of spring ecosystem impairment, at least for the anthropogenic stressors studied by us., (Copyright © 2018. Published by Elsevier B.V.)

Published
2018
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14. Morphology and molecules say: Tanytarsus latens, sp. nov. from Finland (Diptera: Chironomidae).

Author

GiŁka W, Paasivirta L, Gadawski P, and Grabowski M

Subjects
Animals, Electron Transport Complex IV, Finland, Male, Chironomidae
Abstract

Tanytarsus latens sp. nov. is described from Finland (Ostrobothnia borealis, Satakunta). Both morphological and             molecular analyses indicate that T. latens belongs to the mendax species group. The adult male hypopygium of the new species resembles that of Tanytarsus occultus Brundin and of T. desertor Giłka et Paasivirta, while the molecular analysis based on the mitochondrial cytochrome oxidase (COI) gene fragment evidences that T. latens is a sister species to most of European Tanytarsus of the mendax group's core, for which the COI barcodes are known. Notes on biology of T. latens are also provided.

Published
2018
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15. Identifying taxonomic and functional surrogates for spring biodiversity conservation.

Author

Jyväsjärvi J, Virtanen R, Ilmonen J, Paasivirta L, and Muotka T

Subjects
Animals, Biodiversity, Invertebrates, Conservation of Natural Resources, Ecosystem
Abstract

Surrogate approaches are widely used to estimate overall taxonomic diversity for conservation planning. Surrogate taxa are frequently selected based on rarity or charisma, whereas selection through statistical modeling has been applied rarely. We used boosted-regression-tree models (BRT) fitted to biological data from 165 springs to identify bryophyte and invertebrate surrogates for taxonomic and functional diversity of boreal springs. We focused on these 2 groups because they are well known and abundant in most boreal springs. The best indicators of taxonomic versus functional diversity differed. The bryophyte Bryum weigelii and the chironomid larva Paratrichocladius skirwithensis best indicated taxonomic diversity, whereas the isopod Asellus aquaticus and the chironomid Macropelopia spp. were the best surrogates of functional diversity. In a scoring algorithm for priority-site selection, taxonomic surrogates performed only slightly better than random selection for all spring-dwelling taxa, but they were very effective in representing spring specialists, providing a distinct improvement over random solutions. However, the surrogates for taxonomic diversity represented functional diversity poorly and vice versa. When combined with cross-taxon complementarity analyses, surrogate selection based on statistical modeling provides a promising approach for identifying groundwater-dependent ecosystems of special conservation value, a key requirement of the EU Water Framework Directive., (© 2018 Society for Conservation Biology.)

Published
2018
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16. Cladotanytarsus saetheri sp. nov. and C. gedanicus Giłka: Holarctic sibling species (Diptera: Chironomidae).

Author

Puchalski M, Paasivirta L, and GiŁka W

Subjects
Animals, Canada, Colorado, Diptera, Asia, Eastern, Male, Manitoba, New Mexico, Russia, South Carolina, Wisconsin, Chironomidae
Abstract

Cladotanytarsus saetheri, sp. nov., a widely distributed species (Fennoscandia; Russia: Far East; Canada: Manitoba; USA: Colorado, Michigan, South Carolina, Wisconsin) is described and compared with C. gedanicus Giłka, 2001 on the basis of new records (Fennoscandia; Canada: Manitoba, Nunavut; USA: Colorado, New Mexico). Intraspecific morphological variability of adult males is presented in order to delimit the two previously misidentified species.

Published
2018
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17. Why on the snow? Winter emergence strategies of snow-active Chironomidae (Diptera) in Poland.

Author

Soszyńska-Maj A, Paasivirta L, and Giłka W

Subjects
Animals, Ecosystem, Female, Male, Poland, Seasons, Temperature, Chironomidae physiology, Snow
Abstract

A long-term study of adult non-biting midges (Chironomidae) active in winter on the snow in mountain areas and lowlands in Poland yielded 35 species. The lowland and mountain communities differed significantly in their specific composition. The mountain assemblage was found to be more diverse and abundant, with a substantial contribution from the subfamily Diamesinae, whereas Orthocladiinae predominated in the lowlands. Orthocladius wetterensis Brundin was the most characteristic and superdominant species in the winter-active chironomid communities in both areas. Only a few specimens and species of snow-active chironomids were recorded in late autumn and early winter. The abundance of chironomids peaked in late February in the mountain and lowland areas with an additional peak in the mountain areas in early April. However, this second peak of activity consisted mainly of Orthocladiinae, as Diamesinae emerged earliest in the season. Most snow-active species emerged in mid- and late winter, but their seasonal patterns differed between the 2 regions as a result of the different species composition and the duration of snow cover in these regions. Spearman's rank correlation coefficient tests yielded positive results between each season and the number of chironomid individuals recorded in the mountain area. A positive correlation between air temperature, rising to +3.5 °C, and the number of specimens recorded on the snow in the mountain community was statistically significant. The winter emergence and mate-searching strategies of chironomids are discussed in the light of global warming, and a brief compilation of most important published data on the phenomena studied is provided., (© 2015 Institute of Zoology, Chinese Academy of Sciences.)

Published
2016
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18. Establishing a community-wide DNA barcode library as a new tool for arctic research.

Author

Wirta H, Várkonyi G, Rasmussen C, Kaartinen R, Schmidt NM, Hebert PD, Barták M, Blagoev G, Disney H, Ertl S, Gjelstrup P, Gwiazdowicz DJ, Huldén L, Ilmonen J, Jakovlev J, Jaschhof M, Kahanpää J, Kankaanpää T, Krogh PH, Labbee R, Lettner C, Michelsen V, Nielsen SA, Nielsen TR, Paasivirta L, Pedersen S, Pohjoismäki J, Salmela J, Vilkamaa P, Väre H, von Tschirnhaus M, and Roslin T

Subjects
Animals, Arctic Regions, DNA, Ribosomal Spacer chemistry, DNA, Ribosomal Spacer genetics, Electron Transport Complex IV genetics, Greenland, Phylogeny, Plants, Ribulose-Bisphosphate Carboxylase genetics, Biota, DNA Barcoding, Taxonomic methods, Ecosystem
Abstract

DNA sequences offer powerful tools for describing the members and interactions of natural communities. In this study, we establish the to-date most comprehensive library of DNA barcodes for a terrestrial site, including all known macroscopic animals and vascular plants of an intensively studied area of the High Arctic, the Zackenberg Valley in Northeast Greenland. To demonstrate its utility, we apply the library to identify nearly 20 000 arthropod individuals from two Malaise traps, each operated for two summers. Drawing on this material, we estimate the coverage of previous morphology-based species inventories, derive a snapshot of faunal turnover in space and time and describe the abundance and phenology of species in the rapidly changing arctic environment. Overall, 403 terrestrial animal and 160 vascular plant species were recorded by morphology-based techniques. DNA barcodes (CO1) offered high resolution in discriminating among the local animal taxa, with 92% of morphologically distinguishable taxa assigned to unique Barcode Index Numbers (BINs) and 93% to monophyletic clusters. For vascular plants, resolution was lower, with 54% of species forming monophyletic clusters based on barcode regions rbcLa and ITS2. Malaise catches revealed 122 BINs not detected by previous sampling and DNA barcoding. The insect community was dominated by a few highly abundant taxa. Even closely related taxa differed in phenology, emphasizing the need for species-level resolution when describing ongoing shifts in arctic communities and ecosystems. The DNA barcode library now established for Zackenberg offers new scope for such explorations, and for the detailed dissection of interspecific interactions throughout the community., (© 2015 John Wiley & Sons Ltd.)

Published
2016
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19. Climate-induced warming imposes a threat to north European spring ecosystems.

Author

Jyväsjärvi J, Marttila H, Rossi PM, Ala-Aho P, Olofsson B, Nisell J, Backman B, Ilmonen J, Virtanen R, Paasivirta L, Britschgi R, Kløve B, and Muotka T

Subjects
Animal Distribution, Animals, Finland, Models, Biological, Plant Dispersal, Seasons, Sweden, Temperature, Biodiversity, Bryophyta physiology, Global Warming, Invertebrates physiology, Natural Springs
Abstract

Interest in climate change effects on groundwater has increased dramatically during the last decade. The mechanisms of climate-related groundwater depletion have been thoroughly reviewed, but the influence of global warming on groundwater-dependent ecosystems (GDEs) remains poorly known. Here we report long-term water temperature trends in 66 northern European cold-water springs. A vast majority of the springs (82%) exhibited a significant increase in water temperature during 1968-2012. Mean spring water temperatures were closely related to regional air temperature and global radiative forcing of the corresponding year. Based on three alternative climate scenarios representing low (RCP2.6), intermediate (RCP6) and high-emission scenarios (RCP8.5), we estimate that increase in mean spring water temperature in the region is likely to range from 0.67 °C (RCP2.6) to 5.94 °C (RCP8.5) by 2086. According to the worst-case scenario, water temperature of these originally cold-water ecosystems (regional mean in the late 1970s: 4.7 °C) may exceed 12 °C by the end of this century. We used bryophyte and macroinvertebrate species data from Finnish springs and spring-fed streams to assess ecological impacts of the predicted warming. An increase in spring water temperature by several degrees will likely have substantial biodiversity impacts, causing regional extinction of native, cold-stenothermal spring specialists, whereas species diversity of headwater generalists is likely to increase. Even a slight (by 1 °C) increase in water temperature may eliminate endemic spring species, thus altering bryophyte and macroinvertebrate assemblages of spring-fed streams. Climate change-induced warming of northern regions may thus alter species composition of the spring biota and cause regional homogenization of biodiversity in headwater ecosystems., (© 2015 John Wiley & Sons Ltd.)

Published
2015
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20. Inferring the effects of potential dispersal routes on the metacommunity structure of stream insects: as the crow flies, as the fish swims or as the fox runs?

Author

Kärnä OM, Grönroos M, Antikainen H, Hjort J, Ilmonen J, Paasivirta L, and Heino J

Subjects
Animals, Energy Metabolism, Finland, Geography, Animal Distribution, Biodiversity, Insecta physiology, Rivers
Abstract

1. Metacommunity research relies largely on proxies for inferring the effect of dispersal on local community structure. Overland and watercourse distances have been typically used as such proxies. A good proxy for dispersal should, however, take into account more complex landscape features that can affect an organism's movement and dispersal. The cost distance approach does just that, allowing determining the path of least resistance across a landscape. 2. Here, we examined the distance decay of assemblage similarity within a subarctic stream insect metacommunity. We tested whether overland, watercourse and cumulative cost distances performed differently as correlates of dissimilarity in assemblage composition between sites. We also investigated the effect of body size and dispersal mode on metacommunity organization. 3. We found that dissimilarities in assemblage composition correlated more strongly with environmental than physical distances between sites. Overland and watercourse distances showed similar correlations to assemblage dissimilarity between sites, being sometimes significantly correlated with biological variation of entire insect communities. In metacommunities deconstructed by body size or dispersal mode, contrary to our expectation, passive dispersers showed a slightly stronger correlation than active dispersers to environmental differences between sites, although passive dispersers also showed a stronger correlation than active dispersers to physical distances between sites. The strength of correlation between environmental distance and biological dissimilarity also varied slightly among the body size classes. 4. After controlling for environmental differences between sites, cumulative cost distances were slightly better correlates of biological dissimilarities than overland or watercourse distances between sites. However, quantitative differences in correlation coefficients were small between different physical distances. 5. Although environmental differences typically override physical distances as determinants of the composition of stream insect assemblages, correlations between environmental distances and biological dissimilarities are typically rather weak. This undetermined variation may be attributable to dispersal processes, which may be captured using better proxies for the process. We suggest that further modifying the measurement of cost distances may be a fruitful avenue, especially if complemented by more direct natural history information on insect dispersal behaviour and distances travelled by them., (© 2015 The Authors. Journal of Animal Ecology © 2015 British Ecological Society.)

Published
2015
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21. Checklist of the familes Chaoboridae, Dixidae, Thaumaleidae, Psychodidae and Ptychopteridae (Diptera) of Finland.

Author

Salmela J, Paasivirta L, and Kvifte GM

Abstract

A checklist of the families Chaoboridae, Dixidae, Thaumaleidae, Psychodidae and Ptychopteridae (Diptera) recorded from Finland is given. Four species, Dixelladyari Garret, 1924 (Dixidae), Threticustridactilis (Kincaid, 1899), Panimerusalbifacies (Tonnoir, 1919) and Panimerusprzhiboroi Wagner, 2005 (Psychodidae) are reported for the first time from Finland.

Published
2014
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