Dārta Kļaviņa

ORCID id: https://orcid.org/0000-0002-1455-9062

Publikāciju saraksts
List of publications

  • Tedersoo L., Mikryukov V., Zizka A., Bahram M., Hagh-Doust N., Anslan S., Prylutskyi O., Delgado-Baquerizo M., Maestre F.T., Pärn J., Öpik M., Moora M., Zobel M., Espenberg M., Mander Ü., Khalid A.N., Corrales A., Agan A., Vasco-Palacios A.-M., Saitta A., Rinaldi A.C., Verbeken A., Sulistyo B.P., Tamgnoue B., Furneaux B., Ritter C.D., Nyamukondiwa C., Sharp C., Marín C., Gohar D., Klavina D., Sharmah D., Dai D.Q., Nouhra E., Biersma E.M., Rähn E., Cameron E.K., De Crop E., Otsing E., Davydov E.A., Albornoz F.E., Brearley F.Q., Buegger F., Zahn G., Bonito G., Hiiesalu I., Barrio I.C., Heilmann-Clausen J., Ankuda J., Kupagme J.Y., Maciá-Vicente J.G., Djeugap Fovo J.D., Geml J., Alatalo J.M., Alvarez-Manjarrez J., Põldmaa K., Runnel K., Adamson K., Bråthen K.A., Pritsch K., Tchan K.I., Armolaitis K., Hyde K.D., Newsham K.K., Panksep K., Lateef A.A., Tiirmann L., Hansson L., Lamit L.J., Saba M., Tuomi M., Gryzenhout M., Bauters M., Piepenbring M., Wijayawardene N., Yorou N.S., Kurina O., Mortimer P.E., Meidl P., Kohout P., Nilsson R.H., Puusepp R., Drenkhan R., Garibay-Orijel R., Godoy R., Alkahtani S., Rahimlou S., Dudov S.V., Põlme S., Ghosh S., Mundra S., Ahmed T., Netherway T., Henkel T.W., Roslin T., Nteziryayo V., Fedosov V.E., Onipchenko V.G., Yasanthika W.A.E., Lim Y.W., Soudzilovskaia N.A., Antonelli A., Kõljalg U., Abarenkov K. 2022. Global patterns in endemicity and vulnerability of soil fungi. Global Change Biology, 2022; https://doi.org/10.1111/gcb.16398
  • Burnevica N., Klavina D., Polmanis K., Jansons J., Gaitnieks T. 2022. Impact of Stump Removal on Communities of Ectomycorrhizal and Other Soil Fungi in Norway Spruce Stands of Latvia. Diversity, 14(8), 673; https://doi.org/10.3390/d14080673 
  • Klavina D., Tedersoo L., Agan A., Adamson K., Bitenieks K., Gaitnieks T., Drenkhan R. 2022. Soil fungal communities in young Norway spruce-dominant stands: footprints of former land use and selective thinning. European Journal of Forest Research, 141, 503-516; https://doi.org/10.1007/s10342-022-01454-8
  • Burnevica N., Klavina D., Lione G., Pellicciaro M., Silbauma L., Zaluma A., Nikolajeva V., Gonthier P. 2022. In vitro screening of Latvian isolates of Bjerkandera adusta and Sistotrema brinkmannii as potential biocontrol agents against Heterobasidion root and butt rots. Baltic Forestry, 28(1), id637; https://doi.org/10.46490/BF637 
  • Gaitnieks T., Silbauma L., Muižnieks I., Zaļuma A., Kļaviņa D., Burņeviča N., Grosberga M., Lazdiņš A., Piri T. 2022. Spread of Heterobasidion genotypes in Norway spruce stands on drained peat soil in Latvia. Canadian Journal of Forest Research, 2022; https://doi.org/10.1139/cjfr-2021-0309
  • Tedersoo L., Mikryukov V., Anslan S., …, Klavina D. et al. 2021. The Global Soil Mycobiome consortium dataset for boosting fungal diversity research. Fungal Diversity, 2021; https://doi.org/10.1007/s13225-021-00493-7
  • Adamson K., Laas M., Blumenstein K., Busskamp J., Langer G.J., Klavina D., Kaur A., Maaten T., Mullett M.S., Müller M.M., Ondrušková E., Padari A., Pilt E., Riit T., Solheim H., Soonvald L., Tedersoo L., Terhonen E., Drenkhan R. 2021. Highly Clonal Structure and Abundance of One Haplotype Characterise the Diplodia sapinea Populations in Europe and Western Asia. J. Fungi, 7(8), 634; https://doi.org/10.3390/jof7080634
  • Brūna L., Lione G., Kenigsvalde K., Burņeviča N., Zaļuma A., Kļaviņa D., Gaitnieks T., Gonthier P. 2021. Inferences on the Susceptibility of Wood of Different Tree Species to Heterobasidion annosum Sensu Lato Primary Infections and on the Range of Pathogen Spores Dispersal. Forests, 12(7), 854; https://doi.org/10.3390/f12070854
  • Klavina D. 2021. Norway spruce wood fungal community in 20‑41 years-old spruce dominant stands in Latvia. In: Dead Wood meeting 2021 (26‑27.10.2021). Bergen, University of Bergen
  • Klavina D., Daugaviete M., Legzdina L., Drenhan R. 2021. Some aspects of soil fungal communities Norway spruce monocultures of Baltics. In: Abstracts of 63rd International Scientific Conference of Daugavpils University. Daugavpils, DU Akadēmiskais apgāds "Saule", p. 24 
  • Burņeviča N., Zaļuma A., Kļaviņa D., Brūna L., Legzdiņa L., Gaitnieks T. 2021. Initial and long-term fungal diversity and occurrence of Heterobasidion spp. in Norway spruce root fragments remaining in soil after stump extraction. Scandinavian Journal of Forest Research, 36(2-3), 117-125; https://doi.org/10.1080/02827581.2021.1890814
  • Klavina D., Bruna L., Zaluma A., Burnevica N., Polmanis K., Gaitnieks T., Piri T. 2021. Infection and Spread of Root Rot Caused by Heterobasidion parviporum in Picea abies Stands after Thinning: Case Studies on Former Pasture and Meadow Lands. Forests, 12(1), 70; https://doi.org/10.3390/f12010070
  • Gaitnieks T., Bruna L., Zaluma A., Burnevica N., Klavina D., Legzdina L., Jansons J., Piri T. 2021. Development of Heterobasidion spp. fruit bodies on decayed Picea abies. Forest Ecology and Management, 482, 118835; https://doi.org/10.1016/j.foreco.2020.118835
  • Klavina D., Bruna L., Zaluma A., Burnevica N., Polmanis K., Gaitnieks T., Piri T. 2021. Infection and Spread of Root Rot Caused by Heterobasidion Parviporum in Picea Abies Stands after Thinning: Case Studies on Former Pasture and Meadow Lands. Environmental Sciences Proceedings (IECF 2020), 3(1), 2; https://doi.org/10.3390/IECF2020-07950
  • Bruna L., Klavina D., Zaluma A., Kenigsvalde K., Burneviča N., Nikolajeva V., Gaitnieks T., Piri T. 2020. Efficacy of Phlebiopsis gigantea against Heterobasidion conidiospore and basidiospore infection in spruce wood. iForest - Biogeosciences and Forestry, 135, 369-375; https://doi.org/10.3832/ifor3279-013
  • Brūna, L., Kļaviņa, D., Korhonen, K., Zaļuma, A., Burņeviča, N., Gaitnieks, T. 2020. Effect of soil characteristics on spread of Heterobasidion root rot. Proceedings of the Latvian Academy of Sciences. Section B. Natural, Exact, and Applied Sciences, 73(6), 466-471; https://doi.org/10.2478/prolas-2019-0072
  • Gaitnieks T., Zaļuma A., Kenigsvalde K., Brūna L., Kļaviņa D., Burņeviča N., Stenlid J., Jankovský L., Vasaitis R. 2020. Natural infection and colonization of pre-commercially cut stumps of Picea abies and Pinus sylvestris by Heterobasidion rot and its biocontrol fungus Phlebiopsis gigantea. Biological Control, 143, 104208; https://doi.org/10.1016/j.biocontrol.2020.104208
  • Jansone B., Samariks V., Okmanis M., Kļaviņa D., Lazdiņa D. 2020. Effect of High Concentrations of Wood Ash on Soil Properties and Development of Young Norway Spruce (Picea abies (L.) Karst) and Scots Pine (Pinus sylvestris L.). Sustainability, 12(22), 9479; https://doi.org/10.3390/su12229479
  • Brūna L., Kļaviņa D., Korhonen K., Zaļuma A., Burņeviča N., Gaitnieks T. 2019. Effect of soil characteristics on spread of Heterobasidion root rot. Proceedings of the Latvian Academy of Sciences. Section B. Natural, Exact, and Applied Sciences, 73(6), 466-471; https://doi.org/10.2478/prolas-2019-0072
  • Gaitnieks T., Zaļuma A., Kenigsvalde K., Kļaviņa D., Brauners I., Piri T. 2019. Susceptibility of small-diameter Norway spruce understory stumps to Heterobasidion spore infection. Forests, 10(6), 521; https://doi.org/10.3390/f10060521
  • Klavina D., Bruna L., Burnevica N., Gaitnieks T. 2019. Spread of Heterobasidion root rot infection in Norway spruce stands on former agricultural land after thinning. In: Abstract Book of 18th Congress of European Mycologists, 2019, p. 134
  • Lukstiņa L.D., Zaļuma A., Brūna L., Kļaviņa D. 2019. Influence of small-diameter stump height on the prevalence and development of natural Phlebiopsis gigantea and Heterobasidion spp. In: Abstract Book of International conference "Young Scientists for Advance of Agriculture", 2019, p. 9
  • Zaluma A., Bruna L., Klavina D., Burnevica N., Kenigsvalde K., Lazdins A., Gaitnieks T. 2019. Growth of Phlebiopsis gigantea in wood of seven conifer species. Forest Pathology, 49, e12555; https://doi.org/10.1111/efp.12555
  • Brūna L., Zaļuma A., Piri T., Kļaviņa D., Gaitnieks T. 2018. Development of Heterobasidion genets in evenaged Norway spruce stands on peat soils. In: Vasaitis R., Oliva J., Stenlid J. (Eds.) Book of Abstracts of LIFE+ ELMIAS Ash and Elm, and IUFRO WP 7.02.01 Root and Stem Rots Conference (LIFE-IUFRO). Uppsala: SLU, p. 28
  • Neimane U., Polmanis K., Zaluma A., Klavina D., Gaitnieks T., Jansons A. 2018. Damage caused by Lophodermium needle cast in open-pollinated and control-crossed progeny trials of Scots pine (Pinus sylvestris L.). Forestry Chronicle, 94(2), 155-161; https://doi.org/10.5558/tfc2018-024
  • Kenigsvalde K., Nitiša D., Saulite D., Korhonen K., Vulfa L., Nikolajeva V., Kļaviņa D., Bruna L., Gaitnieks T. 2017. Impact of Trichoderma sp. on the development of Heterobasidion annosum in decayed understory Picea abies stumps. Proceedings of the Latvian Academy of Sciences. Section B. Natural, Exact, and Applied Sciences, 72(1-2), 52-56; https://doi.org/10.1515/prolas-2017-0009
  • Klaviņa D., Muižnieks I., Baumanis I., Jansons J., Gaitnieks T., Menkis A. 2017. Survival, growth and mycorrhization of containerised Pinus sylvestris and Picea abies seedlings of different provenances outplanted in a forest clear-cut. Proceedings of the Latvian Academy of Sciences. Section B. Natural, Exact, and Applied Sciences, 71(4), 293-297; https://doi.org/10.1515/prolas-2017-0049
  • Burņeviča N., Jansons Ā., Zaļuma A., Kļaviņa D., Jansons J., Gaitnieks T. 2016. Fungi inhabiting bark stripping wounds made by large game on stems of Picea abies (L.) Karst. in Latvia. Baltic Forestry, 22(1), 2-7
  • Gaitnieks T., Klavina D., Muiznieks I., Pennanen T., Velmala S., Vasaitis R., Menkis A. 2016. Impact of Heterobasidion root-rot on fine root morphology and associated fungi in Picea abies stands on peat soils. Mycorrhiza, 26(5), 465-473; https://doi.org/10.1007/s00572-016-0685-4
  • Klavina D., Lazdiņš A., Bardule A., Nikolajeva V., Okmanis M., Skranda I., Gaitnieks T., Menkis A. 2016. Fine root development and mycorrhization in Norway spruce stands one year after fertilization with potassium sulphate and wood ash. Journal of Forest Science, 62(1), 17-23; https://doi.org/10.17221/93/2015-JFS
  • Kļaviņa D., Menkis A., Gaitnieks T., Pennanen T., Lazdiņš A., Velmala S., Vasaitis R. 2016. Low impact of stump removal on mycorrhization and growth of replanted Picea abies: data from three types of hemiboreal forest. Baltic Forestry, 22(1), 16-24
  • Klavina D., Menkis A., Gaitnieks T., Velmala S., Lazdins A., Rajala T., Pennanen T. 2016. Analysis of Norway spruce dieback phenomenon in Latvia – a belowground perspective. Scandinavian Journal of Forest Research, 31(2), 156-165; https://doi.org/10.1080/02827581.2015.1069390
  • Kļaviņa D., Muižnieks I., Gaitnieks T., Nikolajeva V., Lazdiņa D., Lazdiņš A., Bārdule A., Menkis A. 2016. Fungal communities in roots of Scots pine and Norway spruce saplings grown for 10 years on peat soils fertilized with wood ash. Baltic Forestry, 22(1), 25-33
  • Klavina D., Pennanen T., Gaitnieks T., Velmala S., Lazdins A., Lazdina D., Menkis A. 2016. The ectomycorrhizal community of conifer stands on peat soils 12 years after fertilisation with wood ash. Mycorrhiza, 26(2), 153-160; https://doi.org/10.1007/s00572-015-0655-2
  • Polmanis K., Klavina D., Gaitnieks T., Baumanis I., Lazdins A. 2016. Genetic differences in needle cast damage of Scots pine (Pinus sylvestris L.). In: Proceedings of 22nd International Scientific Conference "Research for Rural Development 2016". Jelgava: LUA, Vol. 2, p. 34-40
  • Adamson K., Klavina D., Drenkhan R., Gaitnieks T., Hanso M. 2015. Diplodia sapinea is colonizing the native Scots pine (Pinus sylvestris) in the northern Baltics. European Journal of Plant Pathology, 143(2), 343-350; https://doi.org/10.1007/s10658-015-0686-8
  • Burnevica N., Kenigsvalde K., Zaluma A., Bruna L., Klavina D., Brauners I., Kenigsvalde A., Eberliņa A., Korhonen K., Gaitnieks T., Vasaitis R. 2015. Studies on root rot causal fungus Heterobasidion annosum in Latvia. In: Libiete Z. (Ed.) Book of abstracts of the international scientific conference "Knowledge Based Forestry Sector". Salaspils: LSFRI Silava, p. 63
  • Kļaviņa D. 2015. Parastās egles (Picea abies (L.) h. karst.) ektomikorizas apsaimniekotās mežaudzēs Latvijā / Ectomycorrhizas of Norway spruce (Picea abies (L.) Karst.) in managed forest stands of Latvia. Promocijas darbs bioloģijas doktora grāda iegūšanai / Thesis (Dr. biol.). Latvijas Universitāte, LVMI Silava / University of Latvia, LSFRI Silava
  • Klavina D., Menkis A., Gaitnieks T., Velmala S., Lazdins A., Rajala T., Pennanen T. 2015. Analysis of Norway spruce dieback phenomenon in Latvia – a belowground perspective. Scandinavian Journal of Forest Research, 31(2), 156-165; https://doi.org/10.1080/02827581.2015.1069390
  • Klavina D., Pennanen T., Gaitnieks T., Velmala S., Lazdins A., Lazdina D., Menkis A. 2015. The ectomycorrhizal community of conifer stands on peat soils 12 years after fertilisation with wood ash. Mycorrhiza, 26(2), 153-160; https://doi.org/10.1007/s00572-015-0655-2
  • Klavina D., Zaluma A., Pennanen T., Velmala S., Gaitnieks T., Gailis A., Menkis A. 2015. Seed provenance impacts growth and ectomycorrhizal colonisation of Picea abies seedlings. Baltic Forestry, 21(2), 184-191
  • Kļaviņa D., Brūna L., Lazdiņa D., Lazdiņš A., Pennanen T., Menkis A., Gaitnieks T. 2015. Ectomycorrhizal community in conifer stands on peat soils 10 to 12 years after wood ash treatment. In: Libiete Z. (Ed.) Book of abstracts of the international scientific conference "Knowledge Based Forestry Sector". Salaspils: LSFRI Silava, p. 127
  • Kļaviņa D., Gailis A., Baumanis I., Zaļuma A., Menkis A., Gaitnieks T. 2015. Impact of seed origin and cultivation system on Norway spruce seedling mycorrhization. In: Libiete Z. (Ed.) Book of abstracts of the international scientific conference "Knowledge Based Forestry Sector". Salaspils: LSFRI Silava, p. 126
  • Kļaviņa D., Vasaitis R., Menkis A., Muižnieks I., Burņeviča N., Kenigsvalde K., Gaitnieks T. 2015. Fine root status and mycorrhizal colonization of Norway spruce in Heterobasidion sp. infected stands on peat soils. In: Libiete Z. (Ed.) Book of abstracts of the international scientific conference "Knowledge Based Forestry Sector". Salaspils: LSFRI Silava, p. 125
  • Lazdina D., Lazdins A., Gaitnieks T., Klavina D., Okmanis M., Jansons A., 2015. Impact of application of large amount of wood ash on Norway spruce (Picea abies (L.) H. Karst.) and Scots pine (Pinus sylvestris L.) seedlings and soil properties. In: Libiete Z. (Ed.) Book of abstracts of the international scientific conference "Knowledge Based Forestry Sector". Salaspils: LSFRI Silava, p. 109
  • Polmanis K., Neimane U., Klavina D., Baumanis I., Jansons A. 2015. Influence of needlecast on growth of young Scots pine stands. In: Libiete Z. (Ed.) Book of abstracts of the international scientific conference "Knowledge Based Forestry Sector". Salaspils: LSFRI Silava, p. 97
  • Barševskis A., Shavrin A., Anichtchenko A., Balalaikins M., Valainis U., Kivleniece I., Avgin S.S., Tamutis V., Huruk S., Cibuļakis R., Kļaviņa D. 2014. Faunistic records of the beetles (Hexapoda: Coleoptera) in Latvia. 5. Acta Biol. Univ. Daugavp., 14(2), 115-122
  • Lazdiņš A., Lazdāns V., Kalēja S., Zimelis A., Prindulis U., Kļaviņa D., Rozītis G. 2014. Celmu biokurināmā resursu un to pieejamības apskats egļu audzēs valsts mežos. Mežzinātne, 28, 166-179
  • Polmanis K., Neimane U., Baumanis I., Kļaviņa D., Gaitnieks T. 2014. Needle cast damages in open-pollonated and control-crossed trials of Scots pine (Pinus sylvestris L.). In: Book of Abstracts of 9th Baltic Theriological Conference: Forest ecosystems and its management: towards understanding the complexity. Salaspils: LSFRI Silava, DU Institute of Systematic Biology, p. 19
  • Kļaviņa D., Gaitnieks T., Menkis A. 2013. Survival, growth and ectomycorrhizal community development of container- and bare-root grown Pinus sylvestris and Picea abies seedlings outplanted on a forest clear-cut. Baltic Forestry, 19(1), 39-49
  • Kļaviņa D., Ķiesnere R.D., Korica A.M., Arhipova N., Daugavietis M., Gaitnieks T. 2012. Skuju koku mizas ekstraktu ietekmes uz Lophodermium seditiosum micēlija attīstību in vitro novērtējums. Mežzinātne, 26, 167-181

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