Xylem Sap Flux Affects Conventional Stem CO2 Efflux Measurements in Tropical Trees

被引:5
作者
Kunert, Norbert [1 ,2 ]
Edinger, Jens [1 ]
机构
[1] Max Planck Inst Biogeochem, Dept Biogeochem Proc, D-07745 Jena, Germany
[2] Brazilian Natl Inst Res Amazon, Lab Forest Mangement, Manaus, Amazonas, Brazil
来源
BIOTROPICA | 2015年 / 47卷 / 06期
关键词
daytime variation; evaporative demand; import; stem respiration; temperature; WATER-USE CHARACTERISTICS; TRANSPIRATION; FLOW; TRANSPORT; PRODUCTIVITY; ASSIMILATION; RESPIRATION; STORAGE; RATES;
D O I
10.1111/btp.12257
中图分类号
Q14 [生态学(生物生态学)];
学科分类号
071012 ; 0713 ;
摘要
The relationship between sap flux and stem CO2 efflux was assessed for three mango trees. We observed higher than expected CO2 effluxes at the place of measurement under intermediate sap flux velocities and lower fluxes under high sap flux velocity. This variation disappeared after removing the tree crown.
引用
收藏
页码:650 / 653
页数:4
相关论文
共 50 条
[21]   Curios relationship revealed by looking at long term data sets-The geometry and allometric scaling of diel xylem sap flux in tropical trees [J].
Kunert, Norbert .
JOURNAL OF PLANT PHYSIOLOGY, 2016, 205 :80-83
[22]   Vertical variation in wood CO2 efflux is not uniformly related to height: measurement across various species and sizes of Bornean tropical rainforest trees [J].
Katayama, Ayumi ;
Kume, Tomonori ;
Ichihashi, Ryuji ;
Nakagawa, Michiko .
TREE PHYSIOLOGY, 2019, 39 (06) :1000-1008
[23]   Transport of root-respired CO2 via the transpiration stream affects aboveground carbon assimilation and CO2 efflux in trees [J].
Bloemen, Jasper ;
McGuire, Mary Anne ;
Aubrey, Doug P. ;
Teskey, Robert O. ;
Steppe, Kathy .
NEW PHYTOLOGIST, 2013, 197 (02) :555-565
[24]   Intercomparison of methods to estimate gross primary production based on CO2 and COS flux measurements [J].
Kohonen, Kukka-Maaria ;
Dewar, Roderick ;
Tramontana, Gianluca ;
Mauranen, Aleksanteri ;
Kolari, Pasi ;
Kooijmans, Linda M. J. ;
Papale, Dario ;
Vesala, Timo ;
Mammarella, Ivan .
BIOGEOSCIENCES, 2022, 19 (17) :4067-4088
[25]   Estimation of whole-stem respiration, incorporating vertical and seasonal variations in stem CO2 efflux rate, of Chamaecyparis obtusa trees [J].
Araki, Masatake G. ;
Utsugi, Hajime ;
Kajimoto, Takuya ;
Han, Qingmin ;
Kawasaki, Tatsuro ;
Chiba, Yukihiro .
JOURNAL OF FOREST RESEARCH, 2010, 15 (02) :115-122
[26]   Diel patterns of stem CO2 efflux vary among cycads, arborescent monocots, and woody eudicots and gymnosperms [J].
Marler, Thomas E. ;
Lindstrom, Anders J. .
PLANT SIGNALING & BEHAVIOR, 2020, 15 (03)
[27]   The manipulation of organic residues affects tree growth and heterotrophic CO2 efflux in a tropical Eucalyptus plantation [J].
Versini, Antoine ;
Nouvellon, Yann ;
Laclau, Jean-Paul ;
Kinana, Antoine ;
Mareschal, Louis ;
Zeller, Bernd ;
Ranger, Jacques ;
Epron, Daniel .
FOREST ECOLOGY AND MANAGEMENT, 2013, 301 :79-88
[28]   Temporal and spatial variations of stem CO2 efflux of three species in subtropical China [J].
Yang, Qingpeng ;
Xu, Ming ;
Chi, Yonggang ;
Zheng, Yunpu ;
Shen, Ruichang ;
Li, Peixue ;
Dai, Huitang .
JOURNAL OF PLANT ECOLOGY, 2012, 5 (02) :229-237
[29]   What's the flux? Unraveling how CO2 fluxes from trees reflect underlying physiological processes [J].
Trumbore, Susan E. ;
Angert, Alon ;
Kunert, Norbert ;
Muhr, Jan ;
Chambers, Jeffrey Q. .
NEW PHYTOLOGIST, 2013, 197 (02) :353-355
[30]   Storage and transpiration have negligible effects on 13C of stem CO2 efflux in large conifer trees [J].
Ubierna, Nerea ;
Kumar, Arjun S. ;
Cernusak, Lucas A. ;
Pangle, Robert E. ;
Gag, Peter J. ;
Marshall, John D. .
TREE PHYSIOLOGY, 2009, 29 (12) :1563-1574
12345