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W4220888980 endingPage "107628" @default.
W4220888980 startingPage "107628" @default.
W4220888980 abstract "The thermal region of the electromagnetic spectrum might provide valuable information for assessing plant water status. Nevertheless, the plant’s physiology and the scale of measurement, (e.g. sensor viewing geometry and the canopy aggregation) are critical for quantifiying and monitoring water stress. This study compares the Crop Water Stress Index (CWSI) of a peach orchard obtained using on-the-ground, and airborne-based canopy temperature (Tc). The temporal evolution of CWSI under mild water stress conditions was assessed for three different irrigation strategies (over-irrigation, OI; farmer irrigation, FI; and non-irrigation, NI). Two aerial campaigns per irrigation season (2017–2018) were performed with an airborne thermal sensor: a first flight under well-watered conditions, and a second flight once mild water stress was developed. At the time of the flights, Tc and net photosynthesis (Pn), stomatal conductance (gs) and stem water potential (Ψs) were measured on the ground with a hand-held thermal camera, a portable gas exchange system and a pressure chamber, respectively. The canopy temperature obtained from the hand-held thermal camera, averaging the sunlit and shaded parts of the canopy, agreed with that derived from the airborne measurements (Y=1.00X; RMSE= 1.97 K). The CWSI values calculated from both approaches detected peach water status under different irrigation strategies. In general, Ψs was better predicted from the aircraft (R² up to 0.72 for CWSI obtained from the aircraft versus R2 =0.51 for Tc ground measurements), whereas the use of ground measurements was preferred for estimating gs and Pn (R² up to 0.73 and 0.74 for Tc ground measurements versus R2 =45 and 0.56 for Tc and CWSI derived from the aircraft). Regardless the approach used for deriving Tc, and due to the consideration of different meteorological conditions (i.e different dates), CWSI provided a better relationship with Ψs than Tc, whereas the latter was more closely related with gs and Pn." @default.
W4220888980 created "2022-04-03" @default.
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W4220888980 date "2022-06-01" @default.
W4220888980 modified "2023-09-25" @default.
W4220888980 title "Assessment of peach trees water status and leaf gas exchange using on-the-ground versus airborne-based thermal imagery" @default.
W4220888980 cites W1454063703 @default.
W4220888980 cites W1656444321 @default.
W4220888980 cites W1728305733 @default.
W4220888980 cites W1967491806 @default.
W4220888980 cites W1968565953 @default.
W4220888980 cites W1971892313 @default.
W4220888980 cites W1986790245 @default.
W4220888980 cites W2002182265 @default.
W4220888980 cites W2003969668 @default.
W4220888980 cites W2011195592 @default.
W4220888980 cites W2017243196 @default.
W4220888980 cites W2018035765 @default.
W4220888980 cites W2019088823 @default.
W4220888980 cites W2019819424 @default.
W4220888980 cites W2028701346 @default.
W4220888980 cites W2044992569 @default.
W4220888980 cites W2048802595 @default.
W4220888980 cites W2062400544 @default.
W4220888980 cites W2062982970 @default.
W4220888980 cites W2063324707 @default.
W4220888980 cites W2069214604 @default.
W4220888980 cites W2071312282 @default.
W4220888980 cites W2071525319 @default.
W4220888980 cites W2079970579 @default.
W4220888980 cites W2082989691 @default.
W4220888980 cites W2085861173 @default.
W4220888980 cites W2092088043 @default.
W4220888980 cites W2097615691 @default.
W4220888980 cites W2100844912 @default.
W4220888980 cites W2107918911 @default.
W4220888980 cites W2111483712 @default.
W4220888980 cites W2123234588 @default.
W4220888980 cites W2137475912 @default.
W4220888980 cites W2140553384 @default.
W4220888980 cites W2147341427 @default.
W4220888980 cites W2150355727 @default.
W4220888980 cites W2152208835 @default.
W4220888980 cites W2153958436 @default.
W4220888980 cites W2154083639 @default.
W4220888980 cites W2158851109 @default.
W4220888980 cites W2229956953 @default.
W4220888980 cites W2237946102 @default.
W4220888980 cites W2315258102 @default.
W4220888980 cites W2469480633 @default.
W4220888980 cites W2505248794 @default.
W4220888980 cites W2515492367 @default.
W4220888980 cites W2528379650 @default.
W4220888980 cites W2592046452 @default.
W4220888980 cites W2603009652 @default.
W4220888980 cites W2615092384 @default.
W4220888980 cites W2735088217 @default.
W4220888980 cites W2793673017 @default.
W4220888980 cites W2796913108 @default.
W4220888980 cites W2804994487 @default.
W4220888980 cites W2811148000 @default.
W4220888980 cites W2928812151 @default.
W4220888980 cites W2979322396 @default.
W4220888980 cites W2999006934 @default.
W4220888980 cites W3081453763 @default.
W4220888980 cites W3088554363 @default.
W4220888980 cites W3115021802 @default.
W4220888980 cites W993500311 @default.
W4220888980 doi "https://doi.org/10.1016/j.agwat.2022.107628" @default.
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