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Niklas Rakos

ORCID: 0000-0002-5268-5799
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A5069750067
Research Areas
  • Climate change and permafrost
  • Lichen and fungal ecology
  • Peatlands and Wetlands Ecology
  • Plant Pathogens and Fungal Diseases
  • Atmospheric and Environmental Gas Dynamics
  • Geology and Paleoclimatology Research
  • Mycorrhizal Fungi and Plant Interactions
  • Indoor Air Quality and Microbial Exposure
  • Cryospheric studies and observations
  • Methane Hydrates and Related Phenomena

Abisko Scientific Research Station
 2021-2024

Swedish Polar Research Secretariat
 2021-2024

 Airborne DNA reveals predictable spatial and seasonal dynamics of fungi
OPENALEX - Publications 
Nerea Abrego Brendan Furneaux Bess Hardwick Panu Somervuo Isabella Palorinne and 95 more Carlos A. Aguilar‐Trigueros Nigel R. Andrew Ulyana Babiy Tan Bao Gisela Bazzano Svetlana Bondarchuk Timothy C. Bonebrake Georgina Brennan Syndonia Bret-Harte Claus Bässler Luciano Cagnolo Erin K. Cameron Elodie Chapurlat Simon Creer Luigi P. D’Acqui Natasha de Vere Marie‐Laure Desprez‐Loustau Michel Dongmo Ida Bomholt Dyrholm Jacobsen Brian L. Fisher Miguel Flores de Jesus Gregory S. Gilbert Gareth Griffith Anna Gritsuk Andrin Gross Håkan Grudd Panu Halme Rachid Hanna Jannik Hansen Lars Holst Hansen Apollon Hegbe Sarah Hill Ian D. Hogg Jenni Hultman Kevin D. Hyde Nicole A. Hynson Natalya Ivanova Petteri Karisto Deirdre Kerdraon Anastasia Knorre Irmgard Krisai‐Greilhüber Juri Kurhinen Maria Kuzmina Nicolas Lecomte Erin Lecomte Viviana Loaiza E Lundin Alexander Meire Armin Mešić Otto Miettinen Norman Monkhouse Peter E. Mortimer Jörg Müller R. Henrik Nilsson Puani Yannick Nonti Jenni Nordén Björn Nordén Veera Norros Claudia Paz Petri Pellikka Danilo Pereira Geoff Petch Juha‐Matti Pitkänen Flavius Popa Caitlin Potter Jenna Purhonen Sanna Pätsi Abdullah Rafiq Dimby Raharinjanahary Niklas Rakos Achala R. Rathnayaka Katrine Raundrup Yu. A. Rebriev Jouko Rikkinen Hanna M.K. Rogers Andrey Rogovsky Yuri Rozhkov Kadri Runnel Annika Saarto Anton Savchenko Markus Schlegel Niels Martin Schmidt Sebastian Seibold Carsten Ambelas Skjøth Elisa Stengel Svetlana Sutyrina Ilkka Syvänperä Leho Tedersoo Jebidiah Timm Laura Tipton Hirokazu Toju Maria Uscka-Perzanowska Michelle van der Bank F.H. van der Bank Bryan Vandenbrink

Abstract Fungi are among the most diverse and ecologically important kingdoms in life. However, distributional ranges of fungi remain largely unknown as do ecological mechanisms that shape their distributions 1,2 . To provide an integrated view spatial seasonal dynamics fungi, we implemented a globally distributed standardized aerial sampling fungal spores 3 The vast majority operational taxonomic units were detected within only one climatic zone, spatiotemporal patterns species richness...

10.1038/s41586-024-07658-9 article EN cc-by Nature 2024-07-10
 Global Spore Sampling Project: A global, standardized dataset of airborne fungal DNA
OPENALEX - Publications 
Otso Ovaskainen Nerea Abrego Brendan Furneaux Bess Hardwick Panu Somervuo and 95 more Isabella Palorinne Nigel R. Andrew Ulyana Babiy Tan Bao Gisela Bazzano Svetlana Bondarchuk Timothy C. Bonebrake Georgina Brennan Syndonia Bret-Harte Claus Bässler Luciano Cagnolo Erin K. Cameron Elodie Chapurlat Simon Creer Luigi P. D’Acqui Natasha de Vere Marie‐Laure Desprez‐Loustau Michel Dongmo Ida Bomholt Dyrholm Jacobsen Brian L. Fisher Miguel Flores de Jesus Gregory S. Gilbert Gareth Griffith Anna Gritsuk Andrin Gross Håkan Grudd Panu Halme Rachid Hanna Jannik Hansen Lars Holst Hansen Apollon Hegbe Sarah Hill Ian D. Hogg Jenni Hultman Kevin D. Hyde Nicole A. Hynson Natalya Ivanova Petteri Karisto Deirdre Kerdraon Anastasia Knorre Irmgard Krisai‐Greilhüber Juri Kurhinen Maria Kuzmina Nicolas Lecomte Erin Lecomte Viviana Loaiza E Lundin Alexander Meire Armin Mešić Otto Miettinen Norman Monkhause Peter E. Mortimer Jörg Müller R. Henrik Nilsson Puani Yannick Nonti Jenni Nordén Björn Nordén Claudia Paz Petri Pellikka Danilo Pereira Geoff Petch Juha‐Matti Pitkänen Flavius Popa Caitlin Potter Jenna Purhonen Sanna Pätsi Abdullah Rafiq Dimby Raharinjanahary Niklas Rakos Achala R. Rathnayaka Katrine Raundrup Yu. A. Rebriev Jouko Rikkinen Hanna M.K. Rogers Andrey Rogovsky Yuri Rozhkov Kadri Runnel Annika Saarto Anton Savchenko Markus Schlegel Niels Martin Schmidt Sebastian Seibold Carsten Ambelas Skjøth Elisa Stengel Svetlana Sutyrina Ilkka Syvänperä Leho Tedersoo Jebidiah Timm Laura Tipton Hirokazu Toju Maria Uscka-Perzanowska Michelle van der Bank F.H. van der Bank Bryan Vandenbrink Stefano Ventura

Novel methods for sampling and characterizing biodiversity hold great promise re-evaluating patterns of life across the planet. The airborne spores with a cyclone sampler, sequencing their DNA, have been suggested as an efficient well-calibrated tool surveying fungal diversity various environments. Here we present data originating from Global Spore Sampling Project, comprising 2,768 samples collected during two years at 47 outdoor locations world. Each sample represents DNA extracted 24 m

10.1038/s41597-024-03410-0 article EN cc-by Scientific Data 2024-05-30
 Field-scale CH<sub>4</sub> emission at a subarctic mire with heterogeneous permafrost thaw status
OPENALEX - Publications 
Patryk Łakomiec Jutta Holst Thomas Friborg P. M. Crill Niklas Rakos and 5 more Natascha Kljun Per‐Ola Olsson Lars Eklundh Andreas Persson Janne Rinne

Abstract. The Arctic is exposed to even faster temperature changes than most other areas on Earth. Constantly increasing will lead thawing permafrost and in the methane (CH4) emissions from wetlands. One of places those Abisko–Stordalen Mire northern Sweden, where climate vegetation studies have been conducted since 1970s. In our study, we analyzed field-scale measured by eddy covariance method at for 3 years (2014–2016). site a subarctic mire mosaic palsas, fully thawed fens, open water...

10.5194/bg-18-5811-2021 article EN cc-by Biogeosciences 2021-10-29
 Field-scale CH<sub>4</sub> emission at a sub-arctic mire with heterogeneous permafrost thaw status
OPENALEX - Publications 
Patryk Łakomiec Jutta Holst Thomas Friborg P. M. Crill Niklas Rakos and 4 more Natascha Kljun Per‐Ola Olsson Lars Eklundh Janne Rinne

Abstract. The Artic is exposed to faster temperature changes than most other areas on Earth. Constantly increasing will lead thawing permafrost and in the CH4 emissions from wetlands. One of places those Abisko-Stordalen Mire northern Sweden, where climate vegetation studies have been conducted 1970s.In our study, we analyzed field-scale methane measured by eddy covariance method at for three years (2014–2016). site a subarctic mire mosaic palsas, fully thawed fens, open water bodies. A...

10.5194/bg-2021-81 preprint EN cc-by 2021-04-06
 Supplementary material to "Field-scale CH<sub>4</sub> emission at a sub-arctic mire with heterogeneous permafrost thaw status"
OPENALEX - Publications 
Patryk Łakomiec Jutta Holst Thomas Friborg P. M. Crill Niklas Rakos and 4 more Natascha Kljun Per‐Ola Olsson Lars Eklundh Janne Rinne

Figure S1.Time series of temperature measurements recorded by Abisko SMHI (Sveriges meteorologiska och hydrologiska institut) at ANS (Abisko Naturvetenskapliga Station), 10 km to the east Stordalen Mire, with years 2014-2016 indicated orange circles.

10.5194/bg-2021-81-supplement preprint EN 2021-04-06
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