Carbon exchange and water use efficiency of a growing, irrigated olive orchard
We measured eddy covariance fluxes of CO2 and H2O over a flat irrigated olive orchard during growth, in different periods from Leaf Area Index (LAI) of 0.3–1.9; measurements of soil respiration were also collected. The daily net ecosystem exchange flux (FNEE) was practically zero at LAI around 0.4 or when the orchard intercepted 11% of the incoming daily radiation; at the end of the experiment, with LAI of 1.9 (and the fraction of intercepted daily radiation close to 0.5), FNEE was around 10 g CO2 m−2 day−1. The night-time ecosystem respiration (Reco), calculated from eddy fluxes in well-mixed night conditions, show a clear but non-linear dependence with LAI; it ranged from 0.05 to 0.15 mg CO2 m−2 s−1 (in average), being the lower limit ideally close to the heterotrophic soil respiration at the site. The gross primary production flux (FGPP) was linearly related to LAI within the LAI range of this experiment (with 11 g CO2 m−2 day−1 increments per unit of LAI) and to the fraction of intercepted radiation. The maximum rates of FGPP (0.75 mg CO2 m−2 s−1) were obtained in the summer mornings of 2002, at LAI close to 1.9. FGPP was strongly modulated by vapour pressure deficit (VPD) through the canopy conductance, even in absence of water stress. Hence, especially in the summer, the maximum rates of carbon assimilation are reached always before noon. The daily course of FGPP shows a two-phase pattern, first related to irradiance and then to canopy conductance. The water use efficiency (WUE) was, in average, 3.8, 6.3 and 7 g CO2 L−1 in 1999, 2001 and 2002, respectively, with maxima always in the early morning. Hourly WUE was strongly related to VPD (WUE = −10.25 + 22.52 × VPD−0.34). Our results suggest that drip irrigated orchards in general, and olive in particular, deserve specific carbon exchange and carbon budget studies and cannot be easily included in other biomes.
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2008-05
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| Subjects: | Olea europaea, Olive tree, Carbon exchange rate, CO2, Water use efficiency, Canopy conductance, |
| Online Access: | http://hdl.handle.net/10261/160048 |
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dig-ias-es-10261-1600482018-08-03T10:14:37Z Carbon exchange and water use efficiency of a growing, irrigated olive orchard Testi, Luca Orgaz Rosua, Francisco Villalobos, Francisco J. Ministerio de Educación y Ciencia (España) Olea europaea Olive tree Carbon exchange rate CO2 Water use efficiency Canopy conductance We measured eddy covariance fluxes of CO2 and H2O over a flat irrigated olive orchard during growth, in different periods from Leaf Area Index (LAI) of 0.3–1.9; measurements of soil respiration were also collected. The daily net ecosystem exchange flux (FNEE) was practically zero at LAI around 0.4 or when the orchard intercepted 11% of the incoming daily radiation; at the end of the experiment, with LAI of 1.9 (and the fraction of intercepted daily radiation close to 0.5), FNEE was around 10 g CO2 m−2 day−1. The night-time ecosystem respiration (Reco), calculated from eddy fluxes in well-mixed night conditions, show a clear but non-linear dependence with LAI; it ranged from 0.05 to 0.15 mg CO2 m−2 s−1 (in average), being the lower limit ideally close to the heterotrophic soil respiration at the site. The gross primary production flux (FGPP) was linearly related to LAI within the LAI range of this experiment (with 11 g CO2 m−2 day−1 increments per unit of LAI) and to the fraction of intercepted radiation. The maximum rates of FGPP (0.75 mg CO2 m−2 s−1) were obtained in the summer mornings of 2002, at LAI close to 1.9. FGPP was strongly modulated by vapour pressure deficit (VPD) through the canopy conductance, even in absence of water stress. Hence, especially in the summer, the maximum rates of carbon assimilation are reached always before noon. The daily course of FGPP shows a two-phase pattern, first related to irradiance and then to canopy conductance. The water use efficiency (WUE) was, in average, 3.8, 6.3 and 7 g CO2 L−1 in 1999, 2001 and 2002, respectively, with maxima always in the early morning. Hourly WUE was strongly related to VPD (WUE = −10.25 + 22.52 × VPD−0.34). Our results suggest that drip irrigated orchards in general, and olive in particular, deserve specific carbon exchange and carbon budget studies and cannot be easily included in other biomes. This work was funded by project AGL2004-05717 of Spanish Ministry of Science (Ministerio de Educación y Ciencia). Peer reviewed 2018-02-02T07:38:40Z 2018-02-02T07:38:40Z 2008-05 artículo http://purl.org/coar/resource_type/c_6501 Environmental and Experimental Botany 63(1-3): 168-177 (2008) 0098-8472 http://hdl.handle.net/10261/160048 10.1016/j.envexpbot.2007.11.006 en Postprint https://doi.org/10.1016/j.envexpbot.2007.11.006 Sí open Elsevier |
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Olea europaea Olive tree Carbon exchange rate CO2 Water use efficiency Canopy conductance Olea europaea Olive tree Carbon exchange rate CO2 Water use efficiency Canopy conductance |
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Olea europaea Olive tree Carbon exchange rate CO2 Water use efficiency Canopy conductance Olea europaea Olive tree Carbon exchange rate CO2 Water use efficiency Canopy conductance Testi, Luca Orgaz Rosua, Francisco Villalobos, Francisco J. Carbon exchange and water use efficiency of a growing, irrigated olive orchard |
| description |
We measured eddy covariance fluxes of CO2 and H2O over a flat irrigated olive orchard during growth, in different periods from Leaf Area Index (LAI) of 0.3–1.9; measurements of soil respiration were also collected. The daily net ecosystem exchange flux (FNEE) was practically zero at LAI around 0.4 or when the orchard intercepted 11% of the incoming daily radiation; at the end of the experiment, with LAI of 1.9 (and the fraction of intercepted daily radiation close to 0.5), FNEE was around 10 g CO2 m−2 day−1. The night-time ecosystem respiration (Reco), calculated from eddy fluxes in well-mixed night conditions, show a clear but non-linear dependence with LAI; it ranged from 0.05 to 0.15 mg CO2 m−2 s−1 (in average), being the lower limit ideally close to the heterotrophic soil respiration at the site. The gross primary production flux (FGPP) was linearly related to LAI within the LAI range of this experiment (with 11 g CO2 m−2 day−1 increments per unit of LAI) and to the fraction of intercepted radiation. The maximum rates of FGPP (0.75 mg CO2 m−2 s−1) were obtained in the summer mornings of 2002, at LAI close to 1.9. FGPP was strongly modulated by vapour pressure deficit (VPD) through the canopy conductance, even in absence of water stress. Hence, especially in the summer, the maximum rates of carbon assimilation are reached always before noon. The daily course of FGPP shows a two-phase pattern, first related to irradiance and then to canopy conductance. The water use efficiency (WUE) was, in average, 3.8, 6.3 and 7 g CO2 L−1 in 1999, 2001 and 2002, respectively, with maxima always in the early morning. Hourly WUE was strongly related to VPD (WUE = −10.25 + 22.52 × VPD−0.34). Our results suggest that drip irrigated orchards in general, and olive in particular, deserve specific carbon exchange and carbon budget studies and cannot be easily included in other biomes. |
| author2 |
Ministerio de Educación y Ciencia (España) |
| author_facet |
Ministerio de Educación y Ciencia (España) Testi, Luca Orgaz Rosua, Francisco Villalobos, Francisco J. |
| format |
artículo |
| topic_facet |
Olea europaea Olive tree Carbon exchange rate CO2 Water use efficiency Canopy conductance |
| author |
Testi, Luca Orgaz Rosua, Francisco Villalobos, Francisco J. |
| author_sort |
Testi, Luca |
| title |
Carbon exchange and water use efficiency of a growing, irrigated olive orchard |
| title_short |
Carbon exchange and water use efficiency of a growing, irrigated olive orchard |
| title_full |
Carbon exchange and water use efficiency of a growing, irrigated olive orchard |
| title_fullStr |
Carbon exchange and water use efficiency of a growing, irrigated olive orchard |
| title_full_unstemmed |
Carbon exchange and water use efficiency of a growing, irrigated olive orchard |
| title_sort |
carbon exchange and water use efficiency of a growing, irrigated olive orchard |
| publisher |
Elsevier |
| publishDate |
2008-05 |
| url |
http://hdl.handle.net/10261/160048 |
| work_keys_str_mv |
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| _version_ |
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