Navegar

Colección

Datos Estadísticas

Artículo

Cristiano, P.M.; Campanello, P.I.; Bucci, S.J.; Rodriguez, S.A.; Lezcano, O.A.; Scholz, F.G.; Madanes, N.; Di Francescantonio, D.; Carrasco, L.O.; Zhang, Y.-J.; Goldstein, G. "Evapotranspiration of subtropical forests and tree plantations: A comparative analysis at different temporal and spatial scales" (2015) Agricultural and Forest Meteorology. 203:96-106
Estamos trabajando para incorporar este artículo al repositorio
Consulte el artículo en la página del editor
Consulte la política de Acceso Abierto del editor

Abstract:

The area of tree plantations in the humid subtropical region of Northern Argentina has recently increased five folds. However, the impact of this land use change on evapotranspiration (ET), one of the main components of the hydrologic cycle, has not been evaluated. We studied the ET at tree and ecosystem levels for native forests and three tree plantations (Pinus taeda, Araucaria angustifolia and Eucalyptus grandis). Water consumption of individual trees was estimated using sap flow measurements. Ecosystem ET was characterized using both remote sensing derived data products (ETMODIS) for 2000-2011 and scaling up from tree sap flow measurements to stand level. Canopy conductance (gc) was estimated using both sap flow measurements and ETMODIS data. At individual level, transpiration was positively related to the size of the tree, and the relationship was well described by an exponential function when all species (both native and cultivated trees) were included in the analysis. The average annual leaf area index was similar between native forest and tree plantations. The ET estimates obtained from scaling up sap flow measurements and from ETMODIS were relatively similar in most cases and differed by 4-34%, depending on the ecosystem. The tree plantations, regardless of density or age, did not show higher ETMODIS than native forests. The ET ranged from 1161 to 1389mm per year across native forests and tree plantations according to remote sensing, representing 58-69% of the annual precipitation. Furthermore, the good agreement between ET estimates, with the exception of E. grandis, obtained using sap flow and remote sensing provide a good basis for predicting the effects of land conversion from native forest to most non-native tree plantations on regional ET. Monthly ETMODIS increased with increasing monthly air saturation deficit (ASD) up to 0.8kPa, value at which ETMODIS did not increase further probably due to stomatal control and low values of gc. Different negative exponential relationships between gc and ASD were obtained when gc was calculated by scaling up daily tree sap flow to ecosystem level. Canopy conductance (estimated by remote sensing) declined in a similar negative exponential fashion with increasing ASD, and no differences were observed across ecosystem types. The result of increasing the time step, from daily to monthly, and the spatial scale from individual tree to stand level, had the consequence to lower, even to eliminate differences in annual ET and gc among ecosystems in their responses to climate drivers. This suggests that the nature of ET regulation at individual and ecosystem levels could be different, which should be taken into account when predicting the effects of changes in land use on regional hydrology. © 2015 Elsevier B.V.

Registro:

Documento: Artículo
Título:Evapotranspiration of subtropical forests and tree plantations: A comparative analysis at different temporal and spatial scales
Autor:Cristiano, P.M.; Campanello, P.I.; Bucci, S.J.; Rodriguez, S.A.; Lezcano, O.A.; Scholz, F.G.; Madanes, N.; Di Francescantonio, D.; Carrasco, L.O.; Zhang, Y.-J.; Goldstein, G.
Filiación:Laboratorio de Ecología Funcional, Departamento de Ecología Genética y Evolución, FCEN, Universidad de Buenos Aires, Argentina
Laboratorio de Ecología Forestal y Ecofisiología, Instituto de Biología Subtropical, CONICET - Universidad Nacional de Misiones, Facultad de Ciencias Forestales, Argentina
Grupo de Estudios Biofísicos y Ecofisiológicos - FCN, Universidad Nacional de la Patagonia SJB, Argentina
Department of Organismic and Evolutionary Biology, Harvard University, Cambridge, United States
Key Laboratory of Tropical Forest Ecology, Xishuangbanna Tropical Botanical Garden, Chinese Academy of Sciences, Mengla, Yunnan, China
Department of Biology, University of Miami, United States
Palabras clave:Canopy conductance; Climatic determinants of transpiration; Remote sensing; Sap flow; Water consumption; canopy reflectance; comparative study; evapotranspiration; hydrological cycle; hydrology; land use change; MODIS; remote sensing; sap flow; spatiotemporal analysis; stomatal conductance; subtropical region; tree planting; Argentina; Araucaria angustifolia; Eucalyptus grandis; Pinus taeda
Año:2015
Volumen:203
Página de inicio:96
Página de fin:106
DOI: http://dx.doi.org/10.1016/j.agrformet.2015.01.007
Título revista:Agricultural and Forest Meteorology
Título revista abreviado:Agric. For. Meterol.
ISSN:01681923
CODEN:AFMEE
Registro:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_01681923_v203_n_p96_Cristiano

Referencias:

  • Almeida, A.U., Soares, J.V., Landsberg, J.J., Rezende, G.D., Water use and yields of Eucalyptus grandis hybrids plantations in Brazil during a rotation for pulp production (2006), http://sid.inpe.br/ePrintat80/2006/07.25.19.29v12006-07-26, INPE ePrint:; Blanken, P.D., Black, T.A., Yang, P.C., Neumann, H.H., Nesic, Z., Staebler, R., den Hartog, G., Lee, X., Energy balance and canopy conductance of a boreal aspen forest: partitioning overstory and understory components (1997) J. Geophys. Res., 102, pp. 28915-28927
  • Bucci, S.J., Scholz, F.G., Goldstein, G., Hoffmann, W.A., Meinzer, F.C., Franco, A.C., Giambelluca, T., Miralles-Wilhelm, F., Controls on stand transpiration and soil water utilization along a tree density gradient in a Neotropical Savanna (2008) Agric. For. Meteorol., 148, pp. 839-849
  • Brümmer, C., Black, T.A., Jassal, R.S., How climate and vegetation type influence evapotranspiration and water use efficiency in Canadian forest peatland and grassland ecosystems (2012) Agric. For. Meteorol., 153, pp. 14-30
  • Clearwater, M.J., Meinzer, F.C., Andrade, J.L., Goldstein, G., Holbrook, N.M., Potential errors in measurement of nonuniform sap flow using heat dissipation probes (1999) Tree Physiol., 19, pp. 681-687
  • Cleugh, H.A., Leuning, R., Mu, Q., Running, S.W., Regional evaporation estimates from flux tower and MODIS satellite data (2007) Remote Sens. Environ., 106 (3), pp. 285-304
  • Cristiano, P.M., Madanes, N., Campanello, P.I., Di Francescantonio, D., Rodriguez, S.A., Zhang, J.Y., Oliva Carrasco, L., Goldstein, G., High NDVI and potential canopy photosynthesis of South American subtropical forests despite seasonal changes in leaf area index and air temperature (2014) Forests, 5 (2), pp. 287-308
  • Do, F., Rocheteau, A., Influence of natural temperature gradients on measurements of xylem sap flow with thermal dissipation probes. 1. Field observations and possible remedies (2002) Tree Physiol., 22, pp. 641-648
  • Gatti, M.G., Campanello, P.I., Montti, L.F., Goldstein, G., Frost resistance in the tropical palm Euterpe edulis and its pattern of distribution in the Atlantic Forest of Argentina (2008) For. Ecol. Manage., 256, pp. 633-640
  • Gea-Izquierdo, G., Mäkelä, A., Margolis, H., Modeling acclimation of photosynthesis to temperature in evergreen conifer forests (2010) New Phytol., 188, pp. 175-186
  • Giambelluca, T.W., Scholz, F.G., Bucci, S.J., Meinzer, F.C., Goldstein, G., Hoffmann, W.A., Franco, A.C., Buchert, M.P., Evapotranspiration and energy balance of Brazilian savannas with contrasting tree density (2009) Agric. For. Meteorol., 149, pp. 1365-1376
  • Granier, A., Une nouvelle méthode pour la mesure du flux de séve brute dans le tronc des arbres (1985) Ann. For. Sci., 42, pp. 193-200
  • Granier, A., Evaluation of transpiration in a Douglas fir stand by mean of sap flow measurement (1987) Tree Physiol., 3, pp. 309-320
  • Granier, A., Loustau, D., Bréda, N., A generic model of forest canopy conductance dependent on climate: soil water availability and leaf area index (2000) Ann. For. Sci., 57, pp. 755-765
  • Heinsch, F.A., Zhao, M., Running, S.W., Kimball, J.S., Nemani, R.R., Davis, K.J., Evaluation of remote sensing based terrestrial productivity from MODIS using regional tower eddy flux network observations (2006) IEEE Trans. Geosci. Remote Sens., 44 (7), pp. 1908-1925
  • Bahmani, S.M.H.G., Attarod, P., Bayramzadeh, V., Ahmadi, M.T., Radmehr, A., Throughfall, stemflow, and rainfall interception in a natural pure forest of chestnut-leaved oak (Quercus castaneifolia C.A. Mey.) in the Caspian Forest of Iran (2012) Ann. For. Res., 55 (2), pp. 197-206
  • Izquierdo, A.E., De Angelo, C.D., Aide, T.M., Thirty years of human demography and land-use change in the Atlantic Forest of Misiones, Argentina: an evaluation of the forest transition model (2008) Ecol. Soc., 13 (2), p. 3
  • Jackson, R.B., Jobbágy, E.G., Avissar, R., Roy, S.B., Barrett, D.J., Cook, C.W., Farley, K.A., Murray, B.C., Trading water for carbon with biological carbon sequestration (2005) Science, 310 (5756), pp. 1944-1947
  • Jin, Y., Schaaf, C.B., Gao, F., Li, X., Strahler, A.H., Lucht, W., Liang, S., Consistency of MODIS surface bidirectional reflectance distribution function and albedo retrievals: 1. Algorithm performance (2003) J. Geophys. Res., 108, pp. 4158-4170
  • Jobbágy, E.G., Jackson, R.B., Groundwater use and salinization with grassland afforestation (2004) Global Change Biol., 10, pp. 1299-1312
  • Jobbágy, E., Nosetto, M., Paruelo, J., Piñeiro, G., Las forestaciones rioplatenses y el agua (2006) Ciencia Hoy, 16 (95), pp. 12-21
  • Jones, H.G., (1992) Plants and Microclimate, , Cambridge University Press, Cambridge
  • Kelliher, F.M., Leuning, R., Raupach, M.R., Schulze, E., Maximum conductances for evaporation vegetation types from global vegetation types (1995) Agric. For. Meteorol., 1923, pp. 1-16
  • Kume, T., Tanaka, N., Kuraji, K., Komatsu, H., Yoshifuji, N., Saitoh, T.M., Suzuki, M., Kumagai, T., Ten-year evapotranspiration estimates in a Bornean tropical rainforest (2011) Agric. For. Meteorol., 151, pp. 1183-1192
  • Launiainen, S., Katul, G.G., Kolari, P., Vesala, T., Hari, P., Empirical and optimal stomatal controls on leaf and ecosystem level CO2 and H2O exchange rates (2011) Agric. For. Meteorol., 151, pp. 1672-1689
  • Ligier, H.D., Matteio, H.R., Polo, H.L., Rosso, J.R., (1990) In Atlas de suelos de la República Argentina, Tomo II. Secretaría de Agricultura, Ganadería y Pesca. Proyecto PNUD Arg. 85/019, INTA, pp. 111-154. , Centro de Investigaciones de Recursos Naturales, Provincia de Misiones
  • Mäkelä, A., Hari, P., Berninger, F., Hänninen, H., Nikinmaa, E., Acclimation of photosynthetic capacity in Scots pine to the annual cycle of temperature (2004) Tree Physiol., 24, pp. 369-376
  • McCulloh, K.A., Winter, K., Meinzer, F.C., Garcia, M., Aranda, J., Lachenbruch, B., A comparison of daily water use estimates derived from constant-heat sap-flow probe values and gravimetric measurements in pot-grown saplings (2007) Tree Physiol., 27, pp. 1355-1360
  • Meinzer, F.C., Andrade, J.L., Hoolbrook, N.M., Cavelier, J., Jackson, P., Control of transpiration from the upper canopy of a tropicaiforest: the role of stomatal, boundary layer and hydraulicarchitecture component (1997) Ptant Cell Environ., 20, pp. 1242-1252
  • Meinzer, M.J., Clearwater, M.J., Goldstein, G., Water transport in trees: current perspectives: new insights and some controversies (2001) Environ. Exp. Bot., 45, pp. 239-262
  • Miralles, D.G., Gash, J.H., Holmes, T.R.H., de Jeu, R.A.M., Dolman, A.J., Global canopy interception from satellite observations (2010) J. Geophys. Res., 115 (D16)
  • Monteith, J.L., Evaporation and environment (1965) Symp. Soc. Exp. Biol., 19, pp. 205-234
  • Montti, L., Campanello, P.I., Gatti, M.G., Blundo, C., Austin, A.T., Sala, O.E., Goldstein, G., Understory bamboo flowering provides a very narrow light window of opportunity for canopy tree recruitment in a neotropical forest of Misiones (2011) Argent. For. Ecol. Manage., 262, pp. 1360-1369
  • Morris, J., Mann, L., Collopy, J., Transpiration and canopy conductance in a eucalypt plantation using shallow saline groundwater (1998) Tree Physiol., 18, pp. 547-555
  • Mu, Q., Heinsch, F., Zhao, M., Running, S., Development of a global evapotranspiration algorithm based on MODIS and global meteorology data (2007) Remote Sens. Environ., 111 (4), pp. 519-536
  • Mu, Q., Zhao, M., Running, S.W., Improvements to a MODIS global terrestrial evapotranspiration algorithm (2011) Remote Sens. Environ., 115, pp. 1781-1800
  • Myneni, R.B., Knyazikhin, Y., Privette, J.L., Glassy, J., Tian, Y., Wang, Y., Hoffman, S., Running, S.W., Global products of vegetation leaf area and fraction of absorbed PAR from year one of MODIS data (2002) Remote Sens. Environ., 83, pp. 214-231
  • Raz-Yaseef, N., Rotenberg, E., Yakir, D., Effects of spatial variations in soil evaporation caused by tree shading on water flux partitioning in a semi-arid pine forest (2010) Agric. For. Meteorol., 150, pp. 454-462
  • Ripley, B.S., Gilbert, M.E., Ibrahim, D.G., Osborne, C.P., Drought constraints on C4 photosynthesis: stomatal and metabolic limitations in C3 and C4 subspecies of Alloteropsis semialata (2007) J. Exp. Bot., 58, pp. 1351-1363
  • Rocha, J., Perdigão, A., Melo, R., Henriques, C., Remote sensing based crop coefficients for water management in agriculture (2012) Sustainable Development - Authoritative and Leading Edge Content for Environmental Management, pp. 953-978. , InTech, S. Curkovic (Ed.)
  • Salomon, J., Schaaf, C., Strahler, A., Gao, F., Jin, Y., Validation of the MODIS bidirectional reflectance distribution function and albedo retrievals using combined observations from the aqua and terra platforms (2006) IEEE Trans. Geosci. Remote Sens., 44 (6), pp. 1555-1565
  • Keys to soil taxonomy (1992) SMSS Technical Monograph no. 19, p. 556. , Pocahontas Press Inc., Blacksburg, VA
  • Steppe, K., De Pauw, D.J.W., Doody, T.M., Teskey, R.O., A comparison of sap flux density using thermal dissipation: heat pulse velocity and heat field deformation methods (2010) Agric. For. Meteorol., 150, pp. 1046-1056
  • Sun, Z., Wang, Q., Ouyang, Z., Watanabe, M., Matsushita, B., Fukushima, T., Evaluation of MOD16 algorithm using MODIS and ground observational data in winter wheat field in North China Plain (2007) Hydrol. Processes, 21 (9), pp. 1196-1206
  • Tan, Z.H., Zhang, Y.P., Liang, N., Hsia, Y.J., Zhang, Y.J., Zhou, G.Y., Li, Y.L., Liu, Y.H., An observational study of the carbon-sink strength of East Asian subtropical evergreen forests (2012) Environ. Res. Lett., 7 (4), pp. 1-12
  • Verstraeten, W.W., Muys, B., Feyen, J., Veroustraete, F., Minnaert, M., Meiresonne, L., De Schrijver, A., Comparative analysis of the actual evapotranspiration of Flemish forest and cropland: using the soil water balance model WAVE (2005) Hydrol. Earth Syst. Sci., 9, pp. 225-241
  • Wang, Y.P., Leuning, R., A two-leaf model for canopy conductance, photosynthesis and partitioning of available energy I: model description and comparison with a multi-layered model (1998) Agric. For. Meteorol., 91 (1-2), pp. 89-111
  • Wang, S., Yang, Y., Trishchenko, A.P., Modeling the response of canopy stomatal conductance to humidity (2009) J. Hydrometeorol., 10, pp. 521-532
  • Wiedemann, A., Jiménez, S.M., Rebman, C., Cuntz, M., Herbst, M., An empirical study of wound response dynamics on sap flow measured with thermal dissipation probes (2013) Acta Hortic., 991, pp. 107-113
  • Wilson, K.B., Hanson, P.J., Mulholland, P.J., Baldocchi, D.D., Wullschleger, S.D., A comparison of methods for determining forest evapotranspiration and its components: sap-flow soil water budget, eddy covariance and catchment water balance (2001) Agric. For. Meteorol., 106, pp. 153-168
  • Zhang, L., Dawes, W.R., Walker, G.R., (1999) Predicting the Effect of Vegetation Changes on Catchment Average Water Balance, , Cooperative Research Centre for Catchment Hydrology CSIRO Land and Water, Australia
  • Zhang, Y.J., Cao, K.F., Goldstein, G., Winter photosynthesis of evergreen broadleaf trees from a Montane Cloud Forest in subtropical China (2013) Photosynthesis Research for Food, Fuel and the Future, pp. 812-817. , Springer, Berlin, Heidelberg, Germany

Citas:

---------- APA ----------
Cristiano, P.M., Campanello, P.I., Bucci, S.J., Rodriguez, S.A., Lezcano, O.A., Scholz, F.G., Madanes, N.,..., Goldstein, G. (2015) . Evapotranspiration of subtropical forests and tree plantations: A comparative analysis at different temporal and spatial scales. Agricultural and Forest Meteorology, 203, 96-106.
http://dx.doi.org/10.1016/j.agrformet.2015.01.007
---------- CHICAGO ----------
Cristiano, P.M., Campanello, P.I., Bucci, S.J., Rodriguez, S.A., Lezcano, O.A., Scholz, F.G., et al. "Evapotranspiration of subtropical forests and tree plantations: A comparative analysis at different temporal and spatial scales" . Agricultural and Forest Meteorology 203 (2015) : 96-106.
http://dx.doi.org/10.1016/j.agrformet.2015.01.007
---------- MLA ----------
Cristiano, P.M., Campanello, P.I., Bucci, S.J., Rodriguez, S.A., Lezcano, O.A., Scholz, F.G., et al. "Evapotranspiration of subtropical forests and tree plantations: A comparative analysis at different temporal and spatial scales" . Agricultural and Forest Meteorology, vol. 203, 2015, pp. 96-106.
http://dx.doi.org/10.1016/j.agrformet.2015.01.007
---------- VANCOUVER ----------
Cristiano, P.M., Campanello, P.I., Bucci, S.J., Rodriguez, S.A., Lezcano, O.A., Scholz, F.G., et al. Evapotranspiration of subtropical forests and tree plantations: A comparative analysis at different temporal and spatial scales. Agric. For. Meterol. 2015;203:96-106.
http://dx.doi.org/10.1016/j.agrformet.2015.01.007