Modelling age- and density-related gas exchange of Picea abies canopies in the Fichtelgebirge, Germany

Free Access

Issue		Ann. For. Sci. Volume 57, Number 3, March-April 2000


Page(s)		229 - 243
DOI		https://doi.org/10.1051/forest:2000114

References

1: Alsheimer M., Köstner B., Falge E.M., Tenhunen J.D., Temporal and spatial variation in transpiration of Norway spruce stands within a forested catchment of the Fichtelgebirge, Germany, Ann. Sci. For. 55 (1998) 103-123.
2: Baldocchi D.D., An analytical solution for coupled leaf photosynthesis and stomatal conductance models, Tree Physiol. 14 (1994) 1069-1079.
3: Baldocchi D.D., Flux footprints within and over forest canopies, Boundary Layer Meteorol. 85 (1997) 273-292.
4: Baldocchi D.D., Valentini R., Running S., Oechel W., Dahlman R., Strategies for measuring and modelling carbon dioxide and water vapour fluxes over terrestrial ecosystems, Global Change Biol. 3 (1996) 159-168.
5: Ball J.T., Woodrow I.E., Berry J.A., A model predicting stomatal conductance and its contribution to the control of photosynthesis under different environmental conditions, in: Binggins I.J. (Ed.), Progress in photosynthesis research, Vol. IV.5, Martinus Nijhoff, Dordrecht, Netherlands, 1987, pp. 221-224.
6: Bauerle W.L., Hinckley T.M., Cermák J., Kucera J., Bible K., The canopy water relations of old-growth Douglas-fir trees, Trees 13 (1999) 211-217.
7: Bell A.D., Dynamic morphology: a contribution to plant population ecology, in: Dirzo R., Sarukhan J. (Eds.), Perspectives on Plant Population Ecology, Sunderland, Mass: Sinauer, 1984, pp. 48-65.
8: Beyschlag W., Ryel R.J., Dietsch C., Shedding of older needle age classes does not necessarily reduce photosynthetic primary production of Norway Spruce. Analysis with a 3-dimensional canopy photosynthesis model, Trees 9 (1995) 51-59.
9: Biron P., Le cycle de l'eau en forêt de moyenne montagne: Flux de sève et bilans hydriques stationnels (Bassin versant du Strengbach à Aubure-Hautes Vosges), Ph.D. Thesis, Louis Pasteur Université, Strasbourg, France, 1994.
10: Björkman O., Comparative studies on photosynthesis in higher plants, Ann. Rev. Plant Physiol. 31 (1973) 491-543.
11: Bronstein I.N., Semendjajew K.A., Taschenbuch der Mathematik, 21./22. Aufl., Harri Deutsch, Thun und Frankfurt/Main, Germany, 1987.
12: Brooks J.R., Hinckley T.M., Ford E.D., Sprugel D.G., Foliage dark respiration in Abies amabilis (Dougl.) Forbes: variation within the canopy, Tree Physiol. 9 (1991) 325-338.
13: Buchmann N., Hinckley T.M., Ehleringer J.R., Carbon isotope dynamics in Abies amabilis stands in the Cascades, Can. J. For. Res. 28 (1998) 808-819.
14: Cermák J., Deml M., Penka M., A new method of sapflow determination in trees, Biol. Plant. (Praha) 15 (1973) 171-178.
15: Cermák J., Kucera J., Penka, M., Improvement of the method of sapflow determination in full-grown trees based on heat balance with direct electric heating of xylem, Biol. Plant. (Praha) 18 (1976) 105-110.
16: Cienciala E., Kucera J., Ryan M.G., Lindroth A., Water flux in boreal forest during two hydrologically contrasting years; species specific regulation of canopy conductance and transpiration, Ann. Sci. For. 55 (1998) 47-61.
17: Falge E.M., Graber W., Siegwolf R., Tenhunen J.D., A model of the gas exchange response of Picea abies to habitat conditions, Trees 10 (1996) 277-287.
18: Falge E.M., Ryel R.J., Alsheimer M., Tenhunen J.D., Effects of stand structure and physiology on forest gas exchange: A simulation study for Norway spruce, Trees 11 (1997) 436-448.
19: Farquhar G.D., Sharkey, T.D., Stomatal conductance and photosynthesis, Ann. Rev. Plant Physiol. 33 (1982) 317-342.
20: Farquhar G.D., Von Caemmerer S., Modelling of photosynthetic response to environment, in: Lange O.L., Nobel P.S., Osmond C.B., Ziegler H. (Eds.), Encyclopedia of Plant Physiology, Vol. 12B, Physiological Plant Ecology II, Water Relations and Carbon Assimilation. Springer-Verlag, Berlin, 1982, pp. 549-587.
21: Farquhar G.D., Von Caemmerer S., Berry, J.A., A biochemical model of photosynthetic CO2 assimilation in leaves of C3 species, Planta 149 (1980) 78-90.
22: Goulden M.L., Munger J.W., Fan S.-M., Daube B.C., Wofsy S.C., Measurements of carbon sequestration by long-term eddy covariance: methods and a critical evaluation of accuracy, Global Change Biol. 3 (1996) 169-182.
23: Granier A., Une nouvelle méthode pour la mesure du flux de sève brute dans le tronc des arbres, Ann. Sci. For. 42 (1985) 81-88.
24: Granier A., Evaluation of transpiration in a Douglas-fir stand by means of sapflow measurements, Tree Physiol. 3 (1987) 309-320.
25: Gross K., Pham-Nguyen T., Einflußvon langfristigem konstanten Wassermangelstreßauf die Nettophotosynthese und das Wachstum junger Fichten (Picea abies [L.] Karst.) und Douglasien (Pseudotsuga menziesii [Mirb.] Franco) im Freiland. Forstwiss. Cbl. 106 (1987) 7-26.
26: Habermehl A., Hüttermann A., Lovas G., Ridder H.-W., Computer Tomographie von Bäumen, Biologie in unserer Zeit 4 (1990) 193-200.
27: Habermehl A., Ridder H.-W., Anwendungen der mobilen Computer-Tomographie zur zerstörungsfreien Untersuchung des Holzkörpers von stehenden Bäumen, Holz Roh- Werkstoff 51 (1993) 1-6.
28: Harley P.C., Tenhunen J.D., Modeling the photosynthetic response of C₃ leaves to environmental factors, in: Boote K.J., Loomis R.S. (Eds.) Modeling Crop Photosynthesis - from Biochemistry to Canopy, ASA, Madison, Wisconsin, 1991, pp. 17-39.
29: Hinckley T.M., Sprugel D.G., Brooks J.R., Brown K.J., Martin T.A., Roberts D.A., Schaap W., Wang D., Scaling and integration in trees, in: Peterson D.L., Parker V.T. (Eds.), Ecological scale: theory and applications, Columbia University Press, New York, 1998, pp. 309-337.
30: Hubbard R.M., Bond B.J., Ryan M., Evidence that hydraulic conductance limits photosynthesis in old Pinus ponderosa trees, Tree Physiol. 19 (1999) 165-172.
31: Jarvis P.G., James G.B., Landsberg J.J., Coniferous forest. in: Monteith J.L. (Ed.), Vegetation and Atmosphere, Vol. 2, Case studies, Academic Press, London, 1976, pp. 171-240.
32: Joss U., Graber W., Profiles and simulated exchange of H₂O, O₃, NO₂ between the atmosphere and the HartX Scots pine plantation, Theor. App. Clim. 53 (1996) 157-172.
33: Kelliher F.M., Leuning R., Schulze E.-D., Evaporation and canopy characteristics of coniferous forests and grasslands, Oecologia 95 (1993) 153-163.
34: Köstner B., Schulze E.-D., Kelliher F.M., Hollinger D.Y., Byers J.N., Hunt J.E., McSeveny T.M., Mesert R., Weir P.L., Transpiration and canopy conductance in a pristine broad-leaved forest of Nothofagus: an analysis of xylem sap flow and eddy correlation measurements, Oecologia 91 (1992) 350-359.
35: Köstner B., Biron P., Siegwolf R., Granier A., Estimates of water vapor flux and canopy conductance of Scots pine at the tree level utilizing different sap flow methods, Theor. Appl. Clim. 53 (1996) 105-114.
36: Köstner B., Alsheimer M., Falge E.M., Geyer R., Tenhunen J.D., Relationships between canopy transpiration, conductance, and tree capacitance of an old Norway spruce (Picea abies) stand, Ann. Sci. For. 55 (1998) 125-139.
37: Kucera J., Cermák J., Penka M., Improved thermal method of continual recording the transpiration flow rate dynamics, Biol. Plant. (Praha) 19 (1977) 413-420.
38: Kull O., Koppel A., Net photosynthetic response to light intensity of shoots from different crown positions and age in Picea abies [L.] Karst., Scand. J. For. Res. 2 (1987) 157-166.
39: Lange O.L., Weikert R.M., Wedler M., Gebel J., Heber U., Photosynthese und Nährstoffversorgung von Fichten aus einem Waldschadensgebiet auf basenarmeme Untergrund, Allg. Forst Zeitschr. 3 (1989) 55-64.
40: Lu P., Biron P., Bréda N., Granier A., Water relations of adult Norway spruce (Picea abies [L.] Karst.) under soil drought in the Vosges mountains: water potential, stomatal conductance and transpiration, Ann. Sci. For. 52 (1995) 117-129.
41: Martin T.A., Brown K.J., Cermák J., Ceulemans R., Kucera J., Meinzer F.C., Rambold J.S., Sprugel D.G., Hinckley T.M., Crown conductance and tree and stand transpiration in a second-growth Abies amabilis forest, Can. J. For. Res. 27 (1997) 797-808.
42: Mirschkorsch C., Die Stamm- und Zweigrespiration eines jungen Fichtenbestandes (Picea abies [L.] Karst.) und die Bedeutung für den CO₂-Netto-Austausch, Diploma thesis, University of Bayreuth, Bayreuth, Germany, 1996.
43: Monteith J.L., Vegetation and the Atmosphere, Vol. 2, Academic Press, New York, 1976.
44: Nobel P.S., Biophysical Plant Physiology and Ecology, W.H. Freeman and Company, San Francisco, 1983.
45: Norman J.M., Radiation transfer in vegetation, in: de Vries D.A., Afgan N.H. (Eds.), Heat and Mass Transfer in the Biosphere, Scripta Book Co, Washington DC, 1975.
46: Norman J.M., Interfacing leaf and canopy light interception models, in: Hesketh J.D., Jones J.W. (Eds.), Predicting Photosynthesis for Ecosystem Models, CRC Press Inc, Boca Raton, Florida, 1980.
47: Öquist G., Brunes L., Hällgren J.-E., Gezelius K., Hallén M., Malmberg G., Effects of artificial frost hardening and winter stress on net photosynthesis, photosynthetic electron transport and RuBP carboxylase activity in seedlings of Pinus sylvestris, Physiol. Plant. 48 (1980) 526-531.
48: Oren R., Phillips N., Ewers B.E., Pataki D.E., Megonigal J.P., Sap-flux-scaled transpiration responses to light, vapor pressure deficit, and leaf area reduction in a flooded Taxodium distichum forest, Tree Physiol. 19 (1997) 337-347.
49: Pereira J.S., Tenhunen J.D., Lange O.L., Beyschlag W., Meyer A., David M.M., Seasonal and diurnal patterns in leaf gas exchange of Eucalyptus globulus trees growing in Portugal, Can. J. For. Res. 16 (1985) 177-184.
50: Phillips N., Nagchaudhuri A., Oren R., Katul G., Time constant for water transport in loblolly pine trees estimated from time series of evaporative demand and stem sapflow, Trees 11 (1997) 412-419.
51: Pollard D.F.W., Logan K.T., The effect of light intensity, photoperiod, soil moisture potential, and temperature on bud morphogenesis in Picea species, Can. J. For. Res. 7 (1977) 415-421.
52: Pretzsch H., Growth trends of forests in Germany, in: Spiecker H., Mielokäinen K., Köhl M., Skovsgaard J.P. (Eds.), Growth trends in European forests, Springer Verlag, Heidelberg, 1996, pp. 107-131.
53: Roberts J., Forest transpiration: a conservative hydrological process?, J. Hydrol. 66 (1983) 133-141.
54: Ross J., Radiative transfer in plant communities, in: Monteith J.L. (Ed.), Vegetation and the Atmosphere, Vol. 1, Academic Press, New York, 1975.
55: Ryan M.G., Yoder B.J., Hydraulic limits to tree height and tree growth, BioScience 47 (1997) 235-242.
56: Ryan M.G., Binkley D., Fownes J.H., Age-related decline in forest productivity: pattern and process, Advances in Ecological Research 27 (1997) 213-262.
57: Ryel R.J., Light relations in tussock grasses as assessed with a new three-dimensional canopy photosynthesis model. Structure and function of foliage organization of a growth form prevalent in environments characterized by stress, Ph.D. Thesis, University of Würzburg, Würzburg, Germany, 1993.
58: Ryel R.J., Beyschlag W., Caldwell M.M., 1993, Foliage orientation and carbon gain in two tussock grasses as assessed with a new whole-plant gas exchange model, Func. Ecol. 7 (1993) 115-124.
59: Sala A., Tenhunen J.D., Simulations of canopy net photosynthesis and transpiration in Quercus ilex L. under the influence of seasonal drought, Agric. For. Meteorol. 78 (1996) 203-222.
60: Schäfer K.V.R., Oren R., Tenhunen J.D., The effect of tree height on sap flux-scaled canopy stomatal conductance in Fagus sylvatica L. Submitted to Plant, Cell and Environ. 1999.
61: Schmid H.P., Source areas for scalars and scalar fluxes, Boundary Layer Meteorol. 67 (1994) 293-318.
62: Schulze E.-D., Cermák J., Matyssek R., Penka M., Zimmermann R., Vasicek F., Gries W., Kucera J., Canopy transpiration and water fluxes in the xylem of the trunk of Larix and Picea trees - comparison of xylem flow, porometer and cuvette measurements, Oecologia 66 (1985) 475-483.
63: Schulze E.-D., Lange O.L., Oren R., Forest decline and air pollution. A study of spruce (Picea abies) on acid soils. Ecological Studies Vol. 77, Springer Verlag, Berlin Heidelberg New York, 1989, pp. 475.
64: Tenhunen J.D., Valentini R., Köstner B., Zimmermann R., Granier A., Variation in forest gas exchange at landscape to continental scales, Ann. Sci. For. 55 (1998) 1-11.
65: Tenhunen J.D., Ryel R.J., Joss U., Falge E., Geyer R., Penumbral and foliage distribution effects on Pinus sylvestris canopy water use and gross primary production, Theor. Appl. Climatol. 1999, in press.
66: Williams M., Rastetter E.B., Fernandes D.N., Goulden M.L., Wofsy S.C., Shaver G.R., Melillo J.M., Munger J.W., Fan S.-M., Nadelhoffer K.J., Modelling the soil-plant-atmosphere continuum in a Quercus-Acer stand at Harvard Forest: the regulation of stomatal conductance by light, nitrogen and soil/plant hydraulic properties, Plant Cell Environ. 19 (1996) 911-927.
67: Yoder B.J., Ryan M.G., Waring R.H., Schoettle A.W., Kaufmann M.R., Evidence of reduced photosynthetic rates in old trees, For. Sci. 40 (1994) 513-527.

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