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Teemu Holtta
Teemu Holtta
Verified email at helsinki.fi
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Year
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
4262013
Modeling xylem and phloem water flows in trees according to cohesion theory and Münch hypothesis
T Hölttä, T Vesala, S Sevanto, M Perämäki, E Nikinmaa
Trees 20, 67-78, 2006
2642006
Linking phloem function to structure: analysis with a coupled xylem–phloem transport model
T Hölttä, M Mencuccini, E Nikinmaa
Journal of theoretical biology 259 (2), 325-337, 2009
2282009
The significance of phloem transport for the speed with which canopy photosynthesis and belowground respiration are linked
M Mencuccini, T Hölttä
New phytologist 185 (1), 189-203, 2010
2182010
Assimilate transport in phloem sets conditions for leaf gas exchange
E Nikinmaa, T Hölttä, P Hari, P Kolari, A Mäkelä, S Sevanto, T Vesala
Plant, Cell & Environment 36 (3), 655-669, 2013
2152013
Effects of the hydraulic coupling between xylem and phloem on diurnal phloem diameter variation
S Sevanto, T Hölttä, NM Holbrook
Plant, cell & environment 34 (4), 690-703, 2011
1672011
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
1572015
Capacitive effect of cavitation in xylem conduits: results from a dynamic model
T Hölttä, H Cochard, E Nikinmaa, M Mencuccini
Plant, cell & environment 32 (1), 10-21, 2009
1482009
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
1472015
New insights into the mechanisms of water-stress-induced cavitation in conifers
H Cochard, T Hölttä, S Herbette, S Delzon, M Mencuccini
Plant Physiology 151 (2), 949-954, 2009
1252009
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
1222018
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
1172013
Sanio¢s laws revisited. Size‐dependent changes in the xylem architecture of trees
M Mencuccini, T Hölttä, G Petit, F Magnani
Ecology letters 10 (11), 1084-1093, 2007
1162007
A physiological model of softwood cambial growth
T Hölttä, H Mäkinen, P Nöjd, A Mäkelä, E Nikinmaa
Tree Physiology 30 (10), 1235-1252, 2010
1132010
The effect of artificially induced drought on radial increment and wood properties of Norway spruce
T Jyske, T Hölttä, H Mäkinen, P Nöjd, I Lumme, H Spiecker
Tree Physiology 30 (1), 103-115, 2010
1062010
Fluxes of carbon dioxide and water vapour over Scots pine forest and clearing
Ü Rannik, N Altimir, J Raittila, T Suni, A Gaman, T Hussein, T Hölttä, ...
Agricultural and Forest Meteorology 111 (3), 187-202, 2002
1012002
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
972016
Comparison of phloem and xylem hydraulic architecture in Picea abies stems
T Jyske, T Hölttä
New phytologist 205 (1), 102-115, 2015
962015
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
952017
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, 218803, 2017
872017
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