, California Agricultural Statistics Review, p.12, 2016.
, Assembly Bill No. 1067, p.12, 2017.
Water use requirements of pistachio trees and response to water stress, Proceedings of the National conference on advances in evapotranspiration, pp.216-273, 1985. ,
Irrigation of deciduous fruit and nut trees, Irrigation of Agricultural Crops ,
Agronomy Monograph 30, pp.987-1017, 1990. ,
Regulated deficit irrigation in almonds: Effects of variations in applied water and stress timing on yield and yield components, Irrig. Sci, vol.24, pp.101-114, 2006. ,
Establishing an almond water production function for California using long-term yield response to variable irrigation, Irrig. Sci, vol.35, pp.169-179, 2017. ,
Irrigation Scheduling. In Almond Production Manual; Micke, W.C., Ed.; Division of Agriculture and Natural Resources, pp.171-178, 1996. ,
Regulated deficit irrigation effects on yield, nut quality and water-use efficiency of mature pistachio trees, J. Hortic. Sci. Biotechnol, vol.79, pp.538-545, 2004. ,
, Remote Sens, vol.10, 2018.
Global warming and changes in risk of concurrent climate extremes: Insights from the 2014 California drought, Geophys. Res. Lett, vol.41, pp.8847-8852, 2014. ,
Stress coefficients for soil water balance combined with water stress indicators for irrigation scheduling of woody crops, vol.3, 2017. ,
Remote sensing for crop water management: From ET modelling to services for the end users, vol.17, 1104. ,
Satellite NDVI assisted monitoring of vegetable crop evapotranspiration in California's San Joaquin Valley. Remote Sens, vol.4, pp.439-455, 2012. ,
Review of Remote Sensing for Evapotranspiration Models ,
A remote sensing surface energy balance algorithm for land (SEBAL): 1. Formulation, J. Hydrol, vol.212, pp.198-212, 1998. ,
Evaluation of soil and vegetation heat flux predictions using a simple two-source model with radiometric temperatures for partial canopy cover, Agric. Meteorol, vol.94, pp.13-29, 1999. ,
Satellite-based ET estimation in agriculture using SEBAL and METRIC, Hydrol. Process, vol.25, pp.4011-4027, 2011. ,
Satellite-Based Energy Balance for Mapping Evapotranspiration with Internalized Calibration (METRIC)-Model, J. Irrig. Drain. Eng, vol.133, pp.380-394, 2007. ,
A coupled remote sensing and simplified surface energy balance approach to estimate actual evapotranspiration from irrigated fields, Sensors, vol.7, pp.979-1000, 2007. ,
Water stress for a short period before harvest in nectarine: Yield, fruit composition, sensory quality, and consumer acceptance of fruit, Sci. Hortic, vol.211, pp.1-7, 2016. ,
Yield responses of mature olive orchard to water deficits, J. Am. Soc. Hortic. Sci, vol.123, pp.425-431, 2003. ,
Deficit irrigation and emergint fruit crops as strategy to save water in Mediterranean semiarid agrosystems, Agric. Water Manag, vol.202, pp.311-324, 2018. ,
Soil and plant water indicators for deficit irrigation management of field-grown sweet cherry trees, Agric. Water Manag, vol.208, pp.83-94, 2018. ,
Water stress causes stomatal closure but does not reduce canopy evapotranspiration in almond, Agric. Water Manag, vol.168, pp.11-22, 2016. ,
Stem-water potential as a sensitivity of water stress (Prunus domestica L.), J. Am. Soc. Hortic. Sci, vol.117, pp.607-611, 1992. ,
Testing water potential in peach trees as an indicator of water stress, J. Hortic. Sci, vol.60, pp.47-56, 1985. ,
Stem water potential is a sensitive indicator of grapevine water status, Ann. Bot, vol.87, pp.477-483, 2001. ,
Using high resolution UAV thermal imagery to assess the variability in the water status of five fruit tree species within a commercial orchard, Precis. Agric, vol.14, pp.660-678, 2013. ,
Seasonal evolution of crop water stress index in grapevine varieties determined with high-resolution remote sensing thermal imagery, Irrig. Sci, vol.33, pp.81-93, 2015. ,
Airborne thermal imagery to detect the seasonal evolution of plant water status in peach, nectarine and Saturn peach orchards. Special issue: Remote Sensing in Precision Agriculture ,
, Remote Sens, vol.10, 2018.
Normalizing the stress-degree day parameter for environmental variability, Agric. Meteorol, vol.24, pp.45-55, 1981. ,
Canopy temperature as a crop water stress indicator, Water Resour. Res, vol.17, pp.1133-1138, 1981. ,
, SoilWeb-Interactive map of USDA-NCSS soil survey data for locations throughout most of the U.S. Calif. Soil Resour. Lab UC Davis UC-ANR Collab. with USDA Nat, Resour. Conserv. Serv, p.12, 2015.
Assessment of orchard N losses to groundwater with vadose zone monitoring network, Agric. Water Manag, vol.172, pp.83-95, 2016. ,
Stem water potential as a sensitive indicator of water stress in prune trees (Prunus domestica L. cv French), J. Am. Soc. Hortic. Sci, vol.117, pp.607-611, 1992. ,
A simple approach to modeling radiation interception by fruit-tree orchards, Agric. For. Meteorol, vol.142, pp.12-24, 2007. ,
Canopy structure, In Plant Physiological Ecology: Field Methods and Instrumentation, pp.301-325, 1989. ,
Surface renewal analysis: A new method to obtain scalar fluxes without velocity data, Agric. Meteorol, vol.74, pp.119-137, 1995. ,
Sensible heat flux estimates using surface renewal analysis: A study case over a peach orchard, Agric. Meteorol, vol.149, pp.1397-1402, 2009. ,
Thermocouple frequency response compensation leads to convergence of the surface renewal alpha calibration, Agric. Meteorol, pp.36-47, 2014. ,
Low and variable atmospheric coupling in irrigated almond (Prunus dulcis) canopies indicates a limited influence of stomata on orchard evapotranspiration, Agric. Water Manag, vol.196, pp.57-65, 2018. ,
, California irrigation management information system (CIMIS), p.12, 2018.
Crop Evapotranspiration-Guidelines for Computing Crop Water Requirements, p.297, 1998. ,
Effects of canopy size and water stress over the crop coefficient of a "Tempranillo" vineyard in south-western Spain, Irrig. Sci, vol.30, pp.419-432, 2012. ,
Fraction of canopy intercepted radiation related differently with crop coefficient depending on the season and the fruit tree species, Agric. Meteorol, vol.184, pp.1-11, 2014. ,
Tree water requirements & regulated deficit irrigation, Pistachio Production Manual, p.12, 2005. ,
Drip irrigation saves money in young almond orchards, Calif. Agric, vol.36, pp.12-13, 1982. ,
Crop water stress index is a sensitive water stress indicator in pistachio trees, Irrig. Sci, vol.26, pp.395-405, 2008. ,
Estimating generalized soil water characteristics from texture, Trans. ASAE, vol.50, pp.1031-1035, 1986. ,
Remote Sensing Based Crop Coefficients for Water Management in Agriculture. In Sustainable Development-Authoritative and Leading Edge Content for Environmental Management, pp.167-191, 2012. ,
Prediction of leaf area index in almonds by vegetation indexes, Comp. Electr. Agric, vol.85, pp.24-32, 2012. ,
Estimating radiation interception in an olive orchard using physical models and multispectral airborne imagery, Isr. J. Plant Sci, vol.60, pp.107-121, 2012. ,
, Remote Sens, vol.10, 2018.
Assessing satellite-based basal crop coefficients for irrigated grapes (Vitis vinifera L.). Agric. Water Manag, vol.98, pp.45-54, 2010. ,
Estimating Evapotranspiration of an Apple Orchard Using a Remote Sensing-Based Soil Water Balance ,
Yield response of almond trees to transpiration deficits, Irrig. Sci, vol.36, pp.111-120, 2018. ,
Quantifying reductions in consumptive water use under regulated dèficit irrigation in pistachio (Pistacia vera L.). Agric. Water Manag, vol.95, pp.877-886, 2008. ,
Measurement and simulation of evaporation from soil in olive orchards, Irrig. Sci, vol.18, pp.205-211, 1999. ,
Canopy temperature and crop water stress, Advances in Irrigation ,
, , pp.43-85, 1982.
Effects of irrigation deprivation during the harvest period on leaf persistence and function in mature almond trees, Tree Physiol, vol.21, pp.1063-1072, 2001. ,
Transpiration of young almond trees in relation to intercepted radiation, Irrig. Sci, vol.33, 2015. ,
Role of leaf hydraulic conductance in the regulation of stomatal conductance in almond and olive in response to water stress, Tree Physiol, vol.36, pp.725-735, 2016. ,
Master's Thesis, School of Agriculture, Food and Wine, p.12, 2013. ,
Impacts of water stress, environment and rootstocks on the diurnal behavior of stem water potential and leaf conductance in pistachio (Pistachio vera L.), Span. J. Agric. Res, vol.14, issue.2, 2016. ,
Responses of young almond trees to two drought periods in the field, J. Hortic. Sci, vol.57, pp.175-187, 1982. ,
Stomatal response to leaf water potential in almond trees under drip irrigated and non irrigated conditions, Plant and Soil, vol.112, pp.151-153, 1988. ,
Improving the precision of irrigation in a pistachio farm using an unmanned airborne thermal system, Irrig. Sci, vol.33, pp.43-52, 2014. ,
Effects of Heterogeneity within Tree Crowns on Airborne-Quantified SIF and the CWSI as Indicators of Water Stress in the Context of Precision Agriculture ,
Plant responses to water stress, A. Rev. Plant Physiol, vol.24, pp.519-570, 1973. ,
Stomatal behavior and water status of maize, sorghum, and tobacco under field conditions. II. At low soil water potential, Plant Physiol, vol.53, pp.360-365, 1974. ,
Osmotic adjustment of sorghum and sunflower crops in response to water deficits and its influence on the water potential at which stomata close, Aust. J. PL Physiol, vol.5, pp.597-608, 1978. ,
Water relations of drought-hardy shrubs: osmotic potential and stomatal reactivity, Pl. Cell. Environ, vol.3, pp.131-140, 1980. ,
Effects of water stress and salinity on photosynthesis of pistachio, Sci. Hort, vol.29, pp.251-261, 1986. ,
The response of pistachio trees to water stress as affected by two different rootstocks. Acta Hort, vol.449, pp.513-519, 1997. ,
Water relations of pistachio (Pistacia vera L.) as affected by phenological stages and water regimes, Sci. Hortic, vol.128, pp.415-422, 2011. ,
Coupling of transpiration to the atmosphere in horticultural crops: the omega factor, ISHS Acta Horticulturae 171, Proceedings of the I International Symposium on Water Relations in Fruit Crops, pp.3-5, 1984. ,
, Remote Sens, vol.10, 2018.
Water use by an irrigated almond orchard, Irrig. Sci, vol.30, pp.189-200, 2012. ,
Estimating crop coefficients from fraction of ground cover and height, Irrig. Sci, vol.28, pp.17-34, 2009. ,
Estimating almond crop coefficients and physiological response to water stress in semiarid environments (SW Spain), J. Agr. Sci. Tech, vol.1, pp.1255-1266, 2015. ,
CropSyst, a cropping systems simulation model, Eur. J. Agron, vol.18, pp.289-307, 2003. ,
Irrigation response of pistachio (Pistacia vera L.), Irrig. Sci, vol.14, pp.7-14, 1993. ,
, This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license, © 2018 by the authors. Licensee MDPI