Regression models for calculating gas fluxes measured with a closed chamber

Agronomy Journal

Volumn 89, Issue 2, 1997, Pages 279-284

  Wagner, Steven W ^a   Reicosky, Donald C ^a   Alessi, R Samuel ^a  

^a AGRICULTURAL RESEARCH SERVICE   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

EID: 0030958345     PISSN: 00021962     EISSN: None     Source Type: Journal    
DOI: 10.2134/agronj1997.00021962008900020021x     Document Type: Article

References (13)

1. Acock, B. 1991. Modeling canopy photosynthetic response to carbon dioxide, light interception, temperature and leaf traits. p. 41-55. In K. J. Boote and R.S. Loomis (ed.) Modeling crop photosynthesis: From biochemistry to canopy. CSSA Spec. Publ. 19. CSSA and ASA, Madison, WI.
2. Akers, S.W., and R.L. Green. 1987. A modular assimilation chamber for carbon exchange rate measurements of turf. HortScience 22: 151-153.
3. Daley, P.F., C.F. Cloutier, and J.N. McNeil. 1984. A canopy porometer for photosynthesis studies in field crops. Can. J. Bot. 62: 290-295.
4. Dugas, W.A., L.J. Fritschen, A.A. Held, A.D. Matthias, D.C. Reicosky, P. Steduto, and J.L. Steiner. 1991. Bowen ratio, eddy correlation, and portable chamber measurements of sensible and latent heat flux over irrigated spring wheat. Agric. For. Meteorol. 56:1-20.
5. Gutschick, V.P. 1991. Modeling photosynthesis and water-use efficiency of canopies as affected by leaf and canopy traits. p. 57-73. In K.J. Boote and R.S. Loomis (ed.) Modeling crop photosynthesis: From biochemistry to canopy. CSSA Spec. Publ. 19. CSSA and ASA, Madison, WI.
6. Livingston, G.P., and G.L. Hutchinson. 1995. Enclosure-based measurement of trace gas exchange: Applications and sources of error. p. 14-51. In P.A. Matson and R.C. Harriss (ed.) Biogenic trace gases: Measuring emissions from soil and water. Blackwell Sci. Publ., London.
7. Meyer, W.S., D.C. Reicosky, H.D. Barrs, and G.S.G. Shell. 1987. A portable chamber for measuring canopy gas exchange of crops subject to different root zone conditions. Agron. J. 79:181-184.
8. Norman, J.M., and T.J. Arkebauer. 1991. Predicting canopy photosynthesis and light-use efficiency from leaf characteristics, p. 75-94. In K.J. Boote and R.S. Loomis (ed.) Modeling crop photosynthesis: From biochemistry to canopy. CSSA Spec. Publ. 19. CSSA and ASA, Madison, WI.
9. Reicosky, D.C. 1990. Canopy gas exchange in the field: Closed chambers. Remote Sens. Rev. 5:163-177.
10. Reicosky, D.C., and D.B. Peters. 1977. A portable chamber for rapid evapotranspiration measurements on field plots. Agron. J. 69:729-732.
11. Reicosky, D.C., P.W. Brown, and M.S. Morgan. 1994. Diurnal trends in wheat canopy temperature, photosynthesis, and evapotranspiration. Remote. Sens. Environ. 49:235-245.
12. 2 exchange rates for corn and soybean, using a portable field chamber. Photosynthetica 24:22-38.
13. Wagner, S.W., and D.C. Reicosky. 1992. Closed-chamber effects on leaf temperature, canopy photosynthesis, and evapotranspiration. Agron. J. 84:731-738.