N
Nuria Altimir
Researcher at University of Helsinki
Publications - 34
Citations - 2466
Nuria Altimir is an academic researcher from University of Helsinki. The author has contributed to research in topics: Stomatal conductance & Scots pine. The author has an hindex of 18, co-authored 33 publications receiving 2206 citations.
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Journal ArticleDOI
Atmospheric composition change: Ecosystems–Atmosphere interactions
David Fowler,Kim Pilegaard,Mark A. Sutton,Per Ambus,Maarit Raivonen,Jan Duyzer,David Simpson,David Simpson,Hilde Fagerli,Sandro Fuzzi,Jan K. Schjoerring,Claire Granier,Claire Granier,Claire Granier,Albrecht Neftel,Ivar S. A. Isaksen,Paolo Laj,Paolo Laj,Michela Maione,Paul S. Monks,Juergen Burkhardt,U. Daemmgen,Johan Neirynck,Erwan Personne,R. Wichink-Kruit,Klaus Butterbach-Bahl,Christophe Flechard,Juha-Pekka Tuovinen,Mhairi Coyle,Giacomo Gerosa,Benjamin Loubet,Nuria Altimir,L. Gruenhage,Christof Ammann,S. Cieslik,Elena Paoletti,Teis Nørgaard Mikkelsen,Helge Ro-Poulsen,Pierre Cellier,John N. Cape,László Horváth,Francesco Loreto,Ülo Niinemets,Paul I. Palmer,Janne Rinne,Pawel K. Misztal,Eiko Nemitz,Douglas Nilsson,Sara C. Pryor,Martin Gallagher,Timo Vesala,Ute Skiba,Nicolas Brüggemann,Sophie Zechmeister-Boltenstern,Jonathan Williams,Colin D. O'Dowd,Maria Cristina Facchini,G. de Leeuw,A. Flossman,Nadine Chaumerliac,Jan Willem Erisman +60 more
TL;DR: A review of the state of the art in understanding the processes involved in the exchange of trace gases and aerosols between the earth's surface and the atmosphere can be found in this article.
Journal ArticleDOI
Evaluation of forest snow processes models (SnowMIP2)
Nick Rutter,Richard Essery,John W. Pomeroy,Nuria Altimir,Kostas Andreadis,Ian Baker,Alan G. Barr,Paul Bartlett,Aaron Boone,Huiping Deng,Hervé Douville,Emanuel Dutra,Kelly Elder,Chad Ellis,Xia Feng,Alexander Gelfan,Angus Goodbody,Yeugeniy M. Gusev,David Gustafsson,Rob Hellström,Yukiko Hirabayashi,Tomoyoshi Hirota,Tobias Jonas,Victor Koren,Anna Kuragina,Dennis P. Lettenmaier,Weiping Li,Charles H. Luce,Eric Martin,Olga N. Nasonova,Jukka Pumpanen,R. David Pyles,Patrick Samuelsson,Melody Sandells,Gerd Schädler,Andrey B. Shmakin,Tatiana G. Smirnova,Tatiana G. Smirnova,Manfred Stähli,Reto Stöckli,Ulrich Strasser,Hua Su,Kazuyoshi Suzuki,Kumiko Takata,Kenji Tanaka,Erin Thompson,Timo Vesala,Pedro Viterbo,Andy Wiltshire,Andy Wiltshire,Kun Xia,Yongkang Xue,Takeshi Yamazaki,Takeshi Yamazaki +53 more
TL;DR: In this article, three snowpack models of varying complexity and purpose were evaluated across a wide range of hydrometeorological and forest canopy conditions at five Northern Hemisphere locations, for up to three months.
Long-term field measurements of atmosphere-surface interactions in boreal forest combining forest ecology, micrometeorology, aerosol physics and atmospheric chemistry
Timo Vesala,Jyrki Haataja,Pasi Aalto,Nuria Altimir,G. Buzorius,Kaarle Hämeri,Hannu Ilvesniemi,Vilho Jokinen,Petri Keronen,Tapani Lahti,Tiina Markkanen,Jyrki M. Mäkelä,Eero Nikinmaa,Sari Palmroth,Toivo Pohja,Jukka Pumpanen,Üllar Rannik,Erkki Siivola,Hanna Ylitalo,Pertti Hari,Markku Kulmala +20 more
Journal Article
Long-term measurements of surface fluxes above a Scots pine forest in Hyytiala, southern Finland, 1996-2001
Tanja Suni,Janne Rinne,Anni Reissell,Nuria Altimir,Petri Keronen,Üllar Rannik,M. Dal Maso,Markku Kulmala,Timo Vesala +8 more
TL;DR: Nearly six years of measurements of surface fluxes of momentum, sensible heat, water vapour, carbon dioxide and aerosol particles, along with a three-month time series of ozone flux, measured by eddy covariance above a Scots pine forest in southern Finland from April 1996 to December 2001 are presented.
Journal ArticleDOI
Effect of thinning on surface fluxes in a boreal forest
Timo Vesala,Tanja Suni,Üllar Rannik,Petri Keronen,Tiina Markkanen,Sanna Sevanto,Tiia Grönholm,Sampo Smolander,Markku Kulmala,Hannu Ilvesniemi,R Ojansuu,Antti Uotila,Janne Levula,Annikki Mäkelä,Jukka Pumpanen,Pasi Kolari,Liisa Kulmala,Nuria Altimir,Frank Berninger,Eero Nikinmaa,Pertti Hari +20 more
TL;DR: In this paper, the authors show that thinning decreases the deposition velocities of fine particles as expected but does not reduce the carbon sink, water vapor flux, or ozone deposition.