Artikkelit, joihin on yleisen käytön mandaatti - Teemu HolttaLisätietoja
Ei saatavilla missään: 5
An analysis of Granier sap flow method, its sensitivity to heat storage and a new approach to improve its time dynamics
T Hölttä, T Linkosalo, A Riikonen, S Sevanto, E Nikinmaa
Agricultural and Forest Meteorology 211, 2-12, 2015
Mandaatit: Suomen Akatemiaa
The importance of tree internal water storage under drought conditions
Y Preisler, T Hölttä, JM Grünzweig, I Oz, F Tatarinov, NK Ruehr, ...
Tree physiology 42 (4), 771-783, 2022
Mandaatit: US Department of Agriculture, National Natural Science Foundation of China …
A mechanistic model of winter stem diameter dynamics reveals the time constant of diameter changes and the elastic modulus across tissues and species
L Lindfors, J Atherton, A Riikonen, T Hölttä
Agricultural and Forest Meteorology 272, 20-29, 2019
Mandaatit: Suomen Akatemiaa
A temporal segmentation approach for dendrometers signal-to-noise discrimination
S Francini, C Cocozza, T Hölttä, A Lintunen, T Paljakka, G Chirici, ...
Computers and Electronics in Agriculture 210, 107925, 2023
Mandaatit: European Commission, Government of Italy
Transport in xylem sap affects the emissions of acetaldehyde from Scots pine stem
K Rissanen, J Aalto, J Bäck, T Hölttä
XI International Workshop on Sap Flow 1300, 161-168, 2019
Mandaatit: Suomen Akatemiaa
Saatavilla jossain: 72
Evaluating theories of drought‐induced vegetation mortality using a multimodel–experiment framework
NG McDowell, RA Fisher, C Xu, JC Domec, T Hölttä, DS Mackay, ...
New Phytologist 200 (2), 304-321, 2013
Mandaatit: UK Natural Environment Research Council
Coordination of physiological traits involved in drought‐induced mortality of woody plants
M Mencuccini, F Minunno, Y Salmon, J Martínez‐Vilalta, T Hölttä
New Phytologist 208 (2), 396-409, 2015
Mandaatit: UK Natural Environment Research Council, European Commission, Government of …
Hydraulic functioning of tree stems—fusing ray anatomy, radial transfer and capacitance
S Pfautsch, T Hölttä, M Mencuccini
Tree physiology 35 (7), 706-722, 2015
Mandaatit: UK Natural Environment Research Council
New insights into the covariation of stomatal, mesophyll and hydraulic conductances from optimization models incorporating nonstomatal limitations to photosynthesis
R Dewar, A Mauranen, A Mäkelä, T Hölttä, B Medlyn, T Vesala
New Phytologist 217 (2), 571-585, 2018
Mandaatit: Australian Research Council, Suomen Akatemiaa, Knut and Alice Wallenberg …
Global transpiration data from sap flow measurements: the SAPFLUXNET database
R Poyatos, V Granda, V Flo, MA Adams, B Adorján, D Aguadé, MPM Aidar, ...
Earth System Science Data Discussions 2020, 1-57, 2020
Mandaatit: US Department of Energy, Government of Spain
Concurrent measurements of change in the bark and xylem diameters of trees reveal a phloem‐generated turgor signal
M Mencuccini, T Hölttä, S Sevanto, E Nikinmaa
New phytologist 198 (4), 1143-1154, 2013
Mandaatit: UK Natural Environment Research Council
Leaf carbon and water status control stomatal and nonstomatal limitations of photosynthesis in trees
Y Salmon, A Lintunen, A Dayet, T Chan, R Dewar, T Vesala, T Hölttä
New phytologist 226 (3), 690-703, 2020
Mandaatit: Suomen Akatemiaa
Separating water‐potential induced swelling and shrinking from measured radial stem variations reveals a cambial growth and osmotic concentration signal
T Chan, T Hölttä, F Berninger, H Mäkinen, P Nöjd, M Mencuccini, ...
Plant, Cell & Environment 39 (2), 233-244, 2016
Mandaatit: Suomen Akatemiaa, European Commission
Comparison of phloem and xylem hydraulic architecture in Picea abies stems
T Jyske, T Hölttä
New phytologist 205 (1), 102-115, 2015
Mandaatit: Suomen Akatemiaa
An empirical method that separates irreversible stem radial growth from bark water content changes in trees: theory and case studies
M Mencuccini, Y Salmon, P Mitchell, T Hölttä, B Choat, P Meir, A O'grady, ...
Plant, cell & environment 40 (2), 290-303, 2017
Mandaatit: US Department of Energy, Australian Research Council, UK Natural Environment …
Effect of Leaf Water Potential on Internal Humidity and CO2 Dissolution: Reverse Transpiration and Improved Water Use Efficiency under Negative Pressure
T Vesala, S Sevanto, T Grönholm, Y Salmon, E Nikinmaa, P Hari, T Hölttä
Frontiers in plant science 8, 54, 2017
Mandaatit: US Department of Energy, Suomen Akatemiaa
Drought impacts on tree phloem: from cell-level responses to ecological significance
Y Salmon, L Dietrich, S Sevanto, T Hölttä, M Dannoura, D Epron
Tree physiology 39 (2), 173-191, 2019
Mandaatit: US Department of Energy, Suomen Akatemiaa, Agence Nationale de la Recherche
Wood allocation trade‐offs between fiber wall, fiber lumen, and axial parenchyma drive drought resistance in neotropical trees
TAJ Janssen, T Hölttä, K Fleischer, K Naudts, H Dolman
Plant, Cell & Environment 43 (4), 965-980, 2020
Mandaatit: German Research Foundation
Osmolality and non-structural carbohydrate composition in the secondary phloem of trees across a latitudinal gradient in Europe
A Lintunen, T Paljakka, T Jyske, M Peltoniemi, F Sterck, G Von Arx, ...
Frontiers in Plant Science 7, 726, 2016
Mandaatit: Research Foundation (Flanders), Suomen Akatemiaa, European Commission
Dynamics of leaf gas exchange, xylem and phloem transport, water potential and carbohydrate concentration in a realistic 3-D model tree crown
E Nikinmaa, R Sievänen, T Hölttä
Annals of botany 114 (4), 653-666, 2014
Mandaatit: Suomen Akatemiaa
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