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Last updated: 14 May 2024
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Peer reviewed papers
2024
69. Osei-Yeboah M., Grabovsky V., Agam N., Gelfand I. 2024. Water and nutrient availability have opposite effects on soil respiration and nitrous and nitric oxide emissions in desert regions. Soil Biology & Biochemistry, 195, DOI: 10.1016/j.soilbio.2024.109460.
68. Zohar Y., Reta K., Drori E., Gliksman U., Rauchberger S., Bar E.S, Lewinsohn E., Agam N., Fait A. 2024. Improved berry and wine quality of Vitis vinifera L. cv. Gewürztraminer grown in an arid climate using a Y-shaped training system. OENO One vine and wine, 58, DOI: 10.20870/oeno-one.2024.58.1.7148.
67. Anderson M.C., Kustas W.P., Norman J., Diak G., Hain C., Gao F., Yang Y., Knipper K., Xue J., Yang Y., Crow W., Holmes T., Nieto H., Guzinski R., Otkin J., Mecikalski J., Cammalleri C., Torres-Rua A., Zhan X., Fang L., Colaizzi P., Agam N. 2024. A brief history of the thermal IR-based Two-Source Energy Balance (TSEB) model – diagnosing evapotranspiration from plant to global scales . Agricultural and Forest Meteorology, 350, DOI: 10.1016/j.agrformet.2024.109951.
66. Kool D., Agam N. 2024. Multi-spectral surface emissivity as an indicator of soil moisture and soil moisture changes in arid soils. Remote Sensing of Environment, 305, DOI: 10.1016/j.rse.2024.114064.
2023
65. Gashu K., Verma P.K., Acuna T., Agam N., Bustan A., Fait A. 2023. Temperature differences between sites lead to altered phenylpropanoid metabolism in a varietal-dependent manner. Frontiers in Plant Science, section Crop and Product Physiology, 14, DOI: 10.3389/fpls.2023.1239852.
64. Bekin N., Agam N. 2023. Rethinking the deployment of static chambers for CO2 flux measurement in dry desert soils. Biogeosciences, DOI:10.5194/bg-20-3791-2023.
63. Gao R., Torres-Rua A.F., Nieto H., Zahn E., Hipps L., Kustas W.P., Alsina M.M., Bambach N., Castro S.J., Prueger J., Alfieri J., Mckee L., White W.A., Gao F., McElrone A.J., Anderson M.C., Knipper K., Coopmans K., Gowing I., Agam N., Sanchez L., Dokoozlian N. 2023. ET partitioning assessment using the TSEB model and sUAS information across California Central Valley vineyards. Remote Sensing, DOI: 10.3390/rs15030756.
2022
62. Kustas W.P., McElrone A.J., Agam N., Knipper K. 2022. From vine to vineyard: The GRAPEX multi-scale remote sensing experiment for improving vineyard irrigation management. Irrigation Science, 40, 435-444, DOI: 10.1007/s00271-022-00816-9.
61. Gao R., Torres-Ruaa F., Aboutalebic M., Nassara A., Whitef W., Alsina M.M., Alfieri J.G., Hipps L., Bambach Ortizd N., Mcelrone A.J., McKee L.G., Prueger J.H., Kustas W.P., Sanchez L., Dokoozlian N., Nieto H., Agam N., Gao F., Anderson M., Coopmans K. 2022. LAI estimation across California vineyards using sUAS multi-seasonal multi-spectral, thermal, and elevation information and machine learning. Irrigation Science, DOI: 10.1007/s00271-022-00776-0.
60. Chen F., Lei F., Knipper K., Gao F., McKee L., Alsina M., Alfieri J.G., Anderson M.C., Alstad K., Dokoozlian N., Greifender F., Kustas W.P., Notarnicola C., Agam N., Prueger J.H., Hipps L.E., Crow W.T. 2022. Application of the Vineyard Data Assimilation (VIDA) system to vineyard root-zone soil moisture monitoring in the California Central Valley. Irrigation Science, DOI: 10.1007/s00271-022-00789-9.
59. Gashu K., Song C., Dubey A.K., Acuna T., Sagi M., Agam N., Bustan A., Fait A. 2022. The effect of topo-climate variation on the secondary metabolism of berries in ten white grapevine varieties (Vitis vinifera). Frontiers in Plant Science, 13, DOI: 10.3389/fpls.2022.847268.
2021
58. Jerszurki D., Saadon T., Zhen J., Agam N., Tas E., Rachmilevitch S., Lazarovitch N. 2021. Vertical microclimate heterogeneity and dew formation in semi-closed and naturally ventilated tomato greenhouses. Scientia Horticulturae, DOI: 10.1016/j.scienta.2021.110271.
57. Kool D., Agra E., Drabkin A., Duncan A., Fendinat P.P., Leduc S., Lupovitch G., Nambwandja A.N., Ndilenga N.S., Nguyễn Thị T., Poodiack B., Sagi L., Shmuel Y., Maggs-Kölling G., Marais E., Pinshow B., Turner J.S., Agam N. 2021. The overlooked non-rainfall water input sibling of fog and dew: daily water vapor adsorption on a !Nara hummock in the Namib Sand Sea. Journal of Hydrology, DOI: 10.1016/j.jhydrol.2021.126420.
56. Kool D., Kustas W.P., Ben-Gal A., Agam N. 2021. Energy partitioning between plant canopy and soil, performance of the two-source energy balance model in a vineyard. Agricultural and Forest Meteorology, DOI: 10.1016/j.agrformet.2021.108328.
2020
55. Gashu K., Sikron-Persi N., Drori E., Harcabi E., Agam N., Bustan A., Fait A. Temperature shift between vineyards modulates berry phenology and primary metabolism in a varietal collection of wine grapevine. Frontiers in Plant Science, DOI: 10.3389/fpls.2020.588739.
54. Fatichi S., Or D., Walko R., Vereecken H., Young M., Ghezzehei T., Hengl T., Kollet S., Agam N., Avissar R. 2020. Soil structure – an important omission in Earth System Models. Nature Communications, DOI: 10.1038/s41467-020-14411-z.
53. Kramer I., Berliner P.R., Agam N. 2020. Modeling the Incoming Radiation in a Planted Trench System. Agricultural and Forest Meteorology, 281, DOI: 10.1016/j.agrformet.2019.107834.
2019
52. Huryna H., Cohen Y., Karnieli A., Panov N., Kustas W.P., Agam N. 2019. Evaluation of TsHARP utility for thermal sharpening of Sentinel-3 satellite images using Sentinel-2 visual imagery. Remote Sensing, 11, 2304, DOI: 10.3390/rs11192304
51. Kustas W.P., Agam N., Ortega-Faias S. 2019. Forward to the GRAPEX special issue. Irrigation Science, DOI: 10.1007/s00271-019-00633-7.
50. Parry C.K., Nieto H., Guilevic P., Agam N., Kustas W.P., Alfieri J.G., McKee L., McElrone A.J. 2019. An intercomparison of radiation partitioning models in vineyard canopies. Irrigation Science, DOI: 10.1007/s00271-019-00621-x.
49. Agam N., Kustas W.P., Alfieri J.G., Gao, F., McKee L.M., Prueger, J.H., Hipps, L.E., 2019. Micro-scale spatial variability in soil heat flux (SHF) in a wine-grape vineyard. Irrigation Science, DOI:10.1007/s00271-019-00634-6.
48. Reshef N., Fait A., Agam N. 2019. Grape berry position affects the diurnal dynamics of its metabolic profile. Plant Cell & Environment, DOI: 10.1111/pce.13522.
2018
47. Kustas W.P., Agam N., Alfieri J.G., McKee L.G., Prueger J.H., Hipps L.E., Howard A.M., Heitman J.L. 2018. Below canopy radiation divergence in a vineyard – implications on inter-row surface energy balance. Irrigation Science, DOI: 10.1007/s00271-018-0601-0.
46. Prueger J.H., Parry C.K., Kustas W.P., Alfieri J.G., Alsina M.M., Nieto H., Wilson T.G., Hipps L.E., Anderson M.C., Hatfield J.L., Gao F., McKee L.G., McElrone A., Agam N., Los S.A. 2018. Crop Water Stress Index of an Irrigated Vineyard in the Central Valley of California. Irrigation Science, DOI:10.1007/s00271-018-0598-4.
45. Kustas W.P, Anderson M.C., Alfieri J.G., Knipper K., Torres-Rua A., Parry C.K., Nieto H., Agam N., White A., Gao F., McKee L., Prueger J.H., Hipps L.E., Los S., Alsina M., Sanchez L., Sams B., Dokoozlian N., McKee M., Jones S., Yang Y., Wilson T.G., McElrone A., Heitman J.L., Howard A., Post K., Lei F., Melton F.S., Hain C. 2018. The Grape Remote sensing Atmospheric Profile and Evapotranspiration eXperiment (GRAPEX). Bulletin of the American Meteorological Society, doi: 10.1175/BAMS-D-16-0244.1.
44. Reshef N., Agam N., Fait A. 2018. Grape Berry Acclimation to Excessive Solar Irradiance Leads to Repartitioning between Major Flavonoid Groups. Journal of Agriculture and Food Chemistry, 66, 3624-3636.
43. Kool D., Ben-Gal A., Agam N. 2018. Within-field advection enhances evaporation and transpiration in a vineyard in an arid environment. Agricultural and Forest Meteorology, 255, 104-113.
2017
42. Florentin A., Agam N. 2017. Estimating non-rainfall-water-inputs-derived latent heat flux with turbulence-based methods. Agricultural and Forest Meteorology, 247, 533-540.
41. Reshef N., Walbaum N., Agam N., Fait A. 2017. Sunlight modulates fruit metabolic profile and shapes the spatial pattern of compound accumulation within the grape cluster. Frontiers in Plant Science, 8, doi: 10.3389/fpls.2017.00070.
2016
40. Kool D., Heitman J.L., Lazarovitch N., Agam N., Sauer T.J., Ben-Gal A. 2016. In-situ thermistor calibration for improved measurement of soil temperature gradients. Soil Science Society of America Journal, 80, 1514-1519.
39. Song L.S., Kustas W.P., Liu S.M., Colaizzi P.D., Nieto H., Xu Z.W., Ma Y.F., Li M.S., Xu T.R., Agam N., Tolk J.A., Evett S.R. 2016. Applications of a thermal-based two-source energy balance model using Priestley-Taylor approach for surface temperature partitioning under advective conditions. Journal of Hydrology, 540, 574-587.
38. Agam N., Leake L.S., Berliner P.R. 2016. Modeling solar radiation inside a trench towards optimizing micro-catchment water harvesting systems. Arricultural and Forest Meteorology, 221, 152–163.
37. Colaizzi P.D., Agam N., Tolk J.A., Evett S.R., Howell T.A. Sr., O’Shaughnessy S.A., Gowda P.H., Kustas W.P., Anderson M.C. 2016. Advances in the two-source energy balance model: partitioning of evaporation and transpiration for row crops. Transactions of the American Society of Agricultural and Biological Engineers, 59, 181-197.
36. Bustan A., Dag A., Yermiyahu U., Erel R., Presnov E., Agam N., Kool D., Iwema J., Zipori I., Ben-Gal A. 2016. Fruit load governs transpiration of olive trees. Tree Physiology, 00, 1-12.
35. Kool D., Kustas; W.P., Ben-Gal A., Lazarovitch N., Heitman J.L., Sauer T.J., Agam N. 2016. Energy and evapotranspiration partitioning in a desert vineyard. Agricultural and Forest Meteorology, 218-219, 277-287.
34. Colaizzi P.D., Evett S.R., Agam N., Schwartz R.C., Kustas W.P., Cosh M.H., McKee L. 2016. Soil Heat Flux Calculation for Sunlit and Shaded Surfaces under Row Crops: 2. Model Test. Agricultural and Forest Meteorology, 216, 129-140.
33. Colaizzi P.D., Evett S.R., Agam N., Schwartz R.C., Kustas W.P., Cosh M.H., McKee L. 2016. Soil Heat Flux Calculation for Sunlit and Shaded Surfaces under Row Crops: 1. Model Development and Sensitivity Analysis. Agricultural and Forest Meteorology, 216, 115-128.
2015
32. Kustas W.P., Alfieri J.D., Agam N., Evett S.R. 2015. Quantifying variability in field‑scale evapotranspiration measurements in an irrigated agricultural region under advection. Irrigation Science, DOI:10.1007/s00271-015-0469-1.
31. Rozenstein O., Agam N., Serio C., Masiello G., Venafra S., Achal S., Puckrin E., Karnieli A. 2015. Diurnal emissivity dynamics in bare versus biocrusted sand dunes. Science of the Total Environment, 506-507, 422–429.
2014
30. Kool D., Ben-Gal A., Agam N., Šimůnek J., Heitman J.L., Sauer T.J., Lazarovitch N. 2014. Spatial and diurnal below canopy evaporation in a desert vineyard: measurements and modeling. Water Resources Research, 50, doi:10.1002/2014WR015409.
29. Colaizzi P.D., Agam N., Tolk J.A., Evett S.R., Howell T.A., Gowda P.H., O’Shaughnessy S.A., Kustas W.P., and Anderson M.C. 2014. Two source energy balance model to calculate E, T, and ET: Comparison of Priestley–Taylor and Penman–Monteith formulations and two time scaling methods. Transactions of American Society of Agricultural and Biological Engineers, 57, 479-498.
28. Holland S., Howard A., Heitman J.L., Giese W., Sutton T., Agam N., Ben-Gal A., Havlin J.L., Sauer T.J. 2014. Implications of an Interrow Fescue Cover Crop for Below-Canopy Water Dynamics in a North Carolina Vineyard. Agronomy Journal, 106, 1267-1274.
27. Agam N. 2014. Comment on "Microlysimeter station for long term non-rainfall water input and evaporation studies" by Ucles et al. Agricultural and Forest Meteorology, 194, 255–256.
26. Kool D., Agam N., Lazarovitch N., Heitman J., Sauer T., Ben-Gal A. 2014. Review on partitioning evapotranspiration into evaporation and transpiration components. Agricultural and Forest Meteorology, 184, 56-70.
25. Agam N., Segal E., Peeters A., Levi A., Dag A., Yermiyahu U., Ben-Gal A. 2014. Spatial Distribution of Water Status in Irrigated Olive Orchards by Thermal Imaging. Precision Agriculture, 15, 346–359.
2013
24. Holland S., Heitman J.L., Howard A., Sauer T.J., Giese W., Ben-Gal A., Agam N., Kool D., and Havlin J. 2013. Micro-Bowen Ratio System for Measuring Evapotranspiration in a Vineyard Interrow. Agricultural and Forest Meteorology, 117, 93-100.
23. Agam N., Cohen Y., Alchanatis V., Ben-Gal A. 2013. How sensitive is the CWSI to changes in solar radiation? International Journal of Remote Sensing, 34, 6109-6120.
22. Agam N., Cohen Y., Berni J.A.J., Alchanatis V., Kool D., Dag A., Yermiyahu U., Ben-Gal A. 2013. An Insight to the Performance of Crop Water Stress Index for Olive Trees. Agricultural Water Management, 118, 79-86.
2012
21. Prueger J.H., Alfieri J.G., Hipps L.E., Kustas W.P., Chavez J.L., Evett S.R., Anderson M.C., French A.N., Neale C.M.U., McKee L.G., Hatfield J.L., Howell T.A.,Agam N. 2012. Patch scale turbulence over dryland and irrigated surfaces in a semi-arid landscape during BEAREX08. Advances in Water Resources, 50, 106-119.
20. Agam N., Kustas W.P., Evett S.R., Colaizzi P.D., Cosh M., McKee L.G. 2012. Soil heat flux variability influenced by row direction in irrigated cotton. Advances in Water Resources, 50, 31-40.
19. Agam N., Evett S.R., Tolk J.A., Kustas W.P., Colaizzi P.D., Alfieri J.G., McKee L.G., Copeland K.S., Howell T.A., Chávez J.L. 2012. Evaporative loss from irrigated interrows in a highly advective semi-arid agricultural area. Advances in Water Resources, 50, 20-30.
18. Alfieri J.G., Kustas W.P., Prueger J.H., Hipps L.E., Evett S.R., Basara J.F., Neale C.M.U., French A.N., Collaizzi P.D., Agam N., Chavez J.L., Howell T.A. 2012. On the discrepancy between eddy covariance and lysimetry-based surface flux measurements under strongly advective conditions. Advances in Water Resources, 50, 62-78.
17. Colaizzi P.D., Kustas W.P., Anderson M.C., Agam N., Tolk J.A., Evett S.R., Howell T.A., Gowda P.H., O’Shaughnessy S.A. 2012. Two-source energy balance model estimates of evapotranspiration using component and composite surface temperatures. Advances in Water Resources, 50, 134-151.
16. Evett S.R., Agam N., Kustas W.P., Colaizzi P.D., Schwartz R.C. 2012. Soil profile method for soil thermal diffusivity, conductivity and heat flux: Comparison to soil heat flux plates. Advances in Water Resources, 50, 41-54.
2010
15. Ben-Gal A., Kool D., Agam N., van Halsema G.E., Yermiyahu U., Yafe A., Presnov E., Erel R., Majdop A., Zipori I., Segal E., Rüger S., Zimmermann U., Cohen Y., Alchanatis V., Dag A. 2010. Whole-tree water balance and indicators for short-term drought stress in non-bearing ‘Barnea’ olives. Agricultural Water Management, 98, 124-133.
14. Agam N., Kustas W.P., Anderson M.C., Norman J.M., Colaizzi P.D., Howell T.A., Prueger J.H., Meyers T. and Wilson T. 2010. Application of the Priestley-Taylor Approach in a Two-Source Surface Energy Balance Model. Journal of Hydrometeorology, 11, 185-198.
13. Karnieli A., Agam N., Pinker R.T., Anderson M.C., Imhoff M.L., Gutman G.G., Panov N. and Goldberg A. 2010. Use of NDVI and land surface temperature for drought assessment: Merits and limitations. Journal of Climate, 23, 618-633.
2009
12. Ben-Gal A., Agam N., Alchanatis V., Cohen Y., Yermiyahu U., Zipori I., Presnov E., Sprintsin M. and Dag A. 2009. Evaluating water stress in irrigated olives: correlation of soil water status, tree water status, and thermal imagery. Irrigation Science, 27, 367-376.
2008
11. Anderson M.C., Norman J.M., Kustas W.P., Houborg R., Starks P.J., and Agam N. 2008. Mapping coupled carbon and water fluxes at the land surface using thermal remote sensing data. Remote Sensing of Environment, 112, 4227–4241.
10. Agam N., Kustas W.P., Anderson M.C., Li F. and Colaizzi P.D. 2008. Utility of thermal image sharpening for monitoring field-scale evapotranspiration over rainfed and irrigated agricultural regions. Geophysical Research Letters, 35, L02402, doi:10.1029/2007GL032195.
2007
9. Katata G., Haruyasu N., Ueda H., Agam N. and Berliner P.R. 2007. Development of a land surface model including evaporation and adsorption processes in the soil for the land-air exchange at arid regions. Journal of Hydrometeorology, 8, 1307–1324.
8. Agam N., Kustas W.P., Anderson M.C., Li F. and Colaizzi P.D. 2007. Utility of thermal sharpening over Texas High Plains irrigated agricultural field. Journal of Geophysical Research – Atmosphere, 112, D19110, doi:10.1029/2007JD008407.
7. Agam N., Kustas W.P., Anderson M.C., Li F. and Neale C.M.U. 2007. A vegetation index based technique for spatial sharpening of thermal imagery. Remote Sensing of Environment, 107, 545-558.
2006
6. Karnieli A., Bayasgalan M., Bayarjargal Yu., Agam N., Khudulmur S. and Tucker C.J. 2006. Comments on the use of the Vegetation Health Index over Mongolia. International Journal of Remote Sensing, 27, 2017-2024.
5. Agam N. and Berliner P.R. 2006. Dew formation and water-vapor adsorption in semi-arid environments - A review. Journal of Arid Environments, 65, 572-590.
4. Ben-Ze’ev E., Karnieli A., Agam N., Kaufman Y. and Holben B. 2006. Assessing vegetation condition in the presence of biomass burning smoke by applying the Aerosol-Free Vegetation Index (AFRI) on MODIS images. International Journal of Remote Sensing, 27, 3203–3221.
2004
3. Agam (Ninari) N., Berliner P.R., Zangvil A. and Ben-Dor E. 2004. Soil water evaporation during the dry season in an arid zone. Journal of Geophysical Research – Atmosphere, 109, D16103, doi:10.1029/2004JD004802.
2. Agam (Ninari) N. and Berliner P.R. 2004. Diurnal water content changes in the bare soil of a coastal desert. Journal of Hydrometeorology, 5, 922-933.
2002
1. Ninari N. and Berliner P.R. 2002. The role of dew in the water and heat balance of bare Loess soil in the Negev Desert: Quantifying the actual dew deposition on the soil surface. Atmospheric Research, 64, 325-336.
69. Osei-Yeboah M., Grabovsky V., Agam N., Gelfand I. 2024. Water and nutrient availability have opposite effects on soil respiration and nitrous and nitric oxide emissions in desert regions. Soil Biology & Biochemistry, 195, DOI: 10.1016/j.soilbio.2024.109460.
68. Zohar Y., Reta K., Drori E., Gliksman U., Rauchberger S., Bar E.S, Lewinsohn E., Agam N., Fait A. 2024. Improved berry and wine quality of Vitis vinifera L. cv. Gewürztraminer grown in an arid climate using a Y-shaped training system. OENO One vine and wine, 58, DOI: 10.20870/oeno-one.2024.58.1.7148.
67. Anderson M.C., Kustas W.P., Norman J., Diak G., Hain C., Gao F., Yang Y., Knipper K., Xue J., Yang Y., Crow W., Holmes T., Nieto H., Guzinski R., Otkin J., Mecikalski J., Cammalleri C., Torres-Rua A., Zhan X., Fang L., Colaizzi P., Agam N. 2024. A brief history of the thermal IR-based Two-Source Energy Balance (TSEB) model – diagnosing evapotranspiration from plant to global scales . Agricultural and Forest Meteorology, 350, DOI: 10.1016/j.agrformet.2024.109951.
66. Kool D., Agam N. 2024. Multi-spectral surface emissivity as an indicator of soil moisture and soil moisture changes in arid soils. Remote Sensing of Environment, 305, DOI: 10.1016/j.rse.2024.114064.
2023
65. Gashu K., Verma P.K., Acuna T., Agam N., Bustan A., Fait A. 2023. Temperature differences between sites lead to altered phenylpropanoid metabolism in a varietal-dependent manner. Frontiers in Plant Science, section Crop and Product Physiology, 14, DOI: 10.3389/fpls.2023.1239852.
64. Bekin N., Agam N. 2023. Rethinking the deployment of static chambers for CO2 flux measurement in dry desert soils. Biogeosciences, DOI:10.5194/bg-20-3791-2023.
63. Gao R., Torres-Rua A.F., Nieto H., Zahn E., Hipps L., Kustas W.P., Alsina M.M., Bambach N., Castro S.J., Prueger J., Alfieri J., Mckee L., White W.A., Gao F., McElrone A.J., Anderson M.C., Knipper K., Coopmans K., Gowing I., Agam N., Sanchez L., Dokoozlian N. 2023. ET partitioning assessment using the TSEB model and sUAS information across California Central Valley vineyards. Remote Sensing, DOI: 10.3390/rs15030756.
2022
62. Kustas W.P., McElrone A.J., Agam N., Knipper K. 2022. From vine to vineyard: The GRAPEX multi-scale remote sensing experiment for improving vineyard irrigation management. Irrigation Science, 40, 435-444, DOI: 10.1007/s00271-022-00816-9.
61. Gao R., Torres-Ruaa F., Aboutalebic M., Nassara A., Whitef W., Alsina M.M., Alfieri J.G., Hipps L., Bambach Ortizd N., Mcelrone A.J., McKee L.G., Prueger J.H., Kustas W.P., Sanchez L., Dokoozlian N., Nieto H., Agam N., Gao F., Anderson M., Coopmans K. 2022. LAI estimation across California vineyards using sUAS multi-seasonal multi-spectral, thermal, and elevation information and machine learning. Irrigation Science, DOI: 10.1007/s00271-022-00776-0.
60. Chen F., Lei F., Knipper K., Gao F., McKee L., Alsina M., Alfieri J.G., Anderson M.C., Alstad K., Dokoozlian N., Greifender F., Kustas W.P., Notarnicola C., Agam N., Prueger J.H., Hipps L.E., Crow W.T. 2022. Application of the Vineyard Data Assimilation (VIDA) system to vineyard root-zone soil moisture monitoring in the California Central Valley. Irrigation Science, DOI: 10.1007/s00271-022-00789-9.
59. Gashu K., Song C., Dubey A.K., Acuna T., Sagi M., Agam N., Bustan A., Fait A. 2022. The effect of topo-climate variation on the secondary metabolism of berries in ten white grapevine varieties (Vitis vinifera). Frontiers in Plant Science, 13, DOI: 10.3389/fpls.2022.847268.
2021
58. Jerszurki D., Saadon T., Zhen J., Agam N., Tas E., Rachmilevitch S., Lazarovitch N. 2021. Vertical microclimate heterogeneity and dew formation in semi-closed and naturally ventilated tomato greenhouses. Scientia Horticulturae, DOI: 10.1016/j.scienta.2021.110271.
57. Kool D., Agra E., Drabkin A., Duncan A., Fendinat P.P., Leduc S., Lupovitch G., Nambwandja A.N., Ndilenga N.S., Nguyễn Thị T., Poodiack B., Sagi L., Shmuel Y., Maggs-Kölling G., Marais E., Pinshow B., Turner J.S., Agam N. 2021. The overlooked non-rainfall water input sibling of fog and dew: daily water vapor adsorption on a !Nara hummock in the Namib Sand Sea. Journal of Hydrology, DOI: 10.1016/j.jhydrol.2021.126420.
56. Kool D., Kustas W.P., Ben-Gal A., Agam N. 2021. Energy partitioning between plant canopy and soil, performance of the two-source energy balance model in a vineyard. Agricultural and Forest Meteorology, DOI: 10.1016/j.agrformet.2021.108328.
2020
55. Gashu K., Sikron-Persi N., Drori E., Harcabi E., Agam N., Bustan A., Fait A. Temperature shift between vineyards modulates berry phenology and primary metabolism in a varietal collection of wine grapevine. Frontiers in Plant Science, DOI: 10.3389/fpls.2020.588739.
54. Fatichi S., Or D., Walko R., Vereecken H., Young M., Ghezzehei T., Hengl T., Kollet S., Agam N., Avissar R. 2020. Soil structure – an important omission in Earth System Models. Nature Communications, DOI: 10.1038/s41467-020-14411-z.
53. Kramer I., Berliner P.R., Agam N. 2020. Modeling the Incoming Radiation in a Planted Trench System. Agricultural and Forest Meteorology, 281, DOI: 10.1016/j.agrformet.2019.107834.
2019
52. Huryna H., Cohen Y., Karnieli A., Panov N., Kustas W.P., Agam N. 2019. Evaluation of TsHARP utility for thermal sharpening of Sentinel-3 satellite images using Sentinel-2 visual imagery. Remote Sensing, 11, 2304, DOI: 10.3390/rs11192304
51. Kustas W.P., Agam N., Ortega-Faias S. 2019. Forward to the GRAPEX special issue. Irrigation Science, DOI: 10.1007/s00271-019-00633-7.
50. Parry C.K., Nieto H., Guilevic P., Agam N., Kustas W.P., Alfieri J.G., McKee L., McElrone A.J. 2019. An intercomparison of radiation partitioning models in vineyard canopies. Irrigation Science, DOI: 10.1007/s00271-019-00621-x.
49. Agam N., Kustas W.P., Alfieri J.G., Gao, F., McKee L.M., Prueger, J.H., Hipps, L.E., 2019. Micro-scale spatial variability in soil heat flux (SHF) in a wine-grape vineyard. Irrigation Science, DOI:10.1007/s00271-019-00634-6.
48. Reshef N., Fait A., Agam N. 2019. Grape berry position affects the diurnal dynamics of its metabolic profile. Plant Cell & Environment, DOI: 10.1111/pce.13522.
2018
47. Kustas W.P., Agam N., Alfieri J.G., McKee L.G., Prueger J.H., Hipps L.E., Howard A.M., Heitman J.L. 2018. Below canopy radiation divergence in a vineyard – implications on inter-row surface energy balance. Irrigation Science, DOI: 10.1007/s00271-018-0601-0.
46. Prueger J.H., Parry C.K., Kustas W.P., Alfieri J.G., Alsina M.M., Nieto H., Wilson T.G., Hipps L.E., Anderson M.C., Hatfield J.L., Gao F., McKee L.G., McElrone A., Agam N., Los S.A. 2018. Crop Water Stress Index of an Irrigated Vineyard in the Central Valley of California. Irrigation Science, DOI:10.1007/s00271-018-0598-4.
45. Kustas W.P, Anderson M.C., Alfieri J.G., Knipper K., Torres-Rua A., Parry C.K., Nieto H., Agam N., White A., Gao F., McKee L., Prueger J.H., Hipps L.E., Los S., Alsina M., Sanchez L., Sams B., Dokoozlian N., McKee M., Jones S., Yang Y., Wilson T.G., McElrone A., Heitman J.L., Howard A., Post K., Lei F., Melton F.S., Hain C. 2018. The Grape Remote sensing Atmospheric Profile and Evapotranspiration eXperiment (GRAPEX). Bulletin of the American Meteorological Society, doi: 10.1175/BAMS-D-16-0244.1.
44. Reshef N., Agam N., Fait A. 2018. Grape Berry Acclimation to Excessive Solar Irradiance Leads to Repartitioning between Major Flavonoid Groups. Journal of Agriculture and Food Chemistry, 66, 3624-3636.
43. Kool D., Ben-Gal A., Agam N. 2018. Within-field advection enhances evaporation and transpiration in a vineyard in an arid environment. Agricultural and Forest Meteorology, 255, 104-113.
2017
42. Florentin A., Agam N. 2017. Estimating non-rainfall-water-inputs-derived latent heat flux with turbulence-based methods. Agricultural and Forest Meteorology, 247, 533-540.
41. Reshef N., Walbaum N., Agam N., Fait A. 2017. Sunlight modulates fruit metabolic profile and shapes the spatial pattern of compound accumulation within the grape cluster. Frontiers in Plant Science, 8, doi: 10.3389/fpls.2017.00070.
2016
40. Kool D., Heitman J.L., Lazarovitch N., Agam N., Sauer T.J., Ben-Gal A. 2016. In-situ thermistor calibration for improved measurement of soil temperature gradients. Soil Science Society of America Journal, 80, 1514-1519.
39. Song L.S., Kustas W.P., Liu S.M., Colaizzi P.D., Nieto H., Xu Z.W., Ma Y.F., Li M.S., Xu T.R., Agam N., Tolk J.A., Evett S.R. 2016. Applications of a thermal-based two-source energy balance model using Priestley-Taylor approach for surface temperature partitioning under advective conditions. Journal of Hydrology, 540, 574-587.
38. Agam N., Leake L.S., Berliner P.R. 2016. Modeling solar radiation inside a trench towards optimizing micro-catchment water harvesting systems. Arricultural and Forest Meteorology, 221, 152–163.
37. Colaizzi P.D., Agam N., Tolk J.A., Evett S.R., Howell T.A. Sr., O’Shaughnessy S.A., Gowda P.H., Kustas W.P., Anderson M.C. 2016. Advances in the two-source energy balance model: partitioning of evaporation and transpiration for row crops. Transactions of the American Society of Agricultural and Biological Engineers, 59, 181-197.
36. Bustan A., Dag A., Yermiyahu U., Erel R., Presnov E., Agam N., Kool D., Iwema J., Zipori I., Ben-Gal A. 2016. Fruit load governs transpiration of olive trees. Tree Physiology, 00, 1-12.
35. Kool D., Kustas; W.P., Ben-Gal A., Lazarovitch N., Heitman J.L., Sauer T.J., Agam N. 2016. Energy and evapotranspiration partitioning in a desert vineyard. Agricultural and Forest Meteorology, 218-219, 277-287.
34. Colaizzi P.D., Evett S.R., Agam N., Schwartz R.C., Kustas W.P., Cosh M.H., McKee L. 2016. Soil Heat Flux Calculation for Sunlit and Shaded Surfaces under Row Crops: 2. Model Test. Agricultural and Forest Meteorology, 216, 129-140.
33. Colaizzi P.D., Evett S.R., Agam N., Schwartz R.C., Kustas W.P., Cosh M.H., McKee L. 2016. Soil Heat Flux Calculation for Sunlit and Shaded Surfaces under Row Crops: 1. Model Development and Sensitivity Analysis. Agricultural and Forest Meteorology, 216, 115-128.
2015
32. Kustas W.P., Alfieri J.D., Agam N., Evett S.R. 2015. Quantifying variability in field‑scale evapotranspiration measurements in an irrigated agricultural region under advection. Irrigation Science, DOI:10.1007/s00271-015-0469-1.
31. Rozenstein O., Agam N., Serio C., Masiello G., Venafra S., Achal S., Puckrin E., Karnieli A. 2015. Diurnal emissivity dynamics in bare versus biocrusted sand dunes. Science of the Total Environment, 506-507, 422–429.
2014
30. Kool D., Ben-Gal A., Agam N., Šimůnek J., Heitman J.L., Sauer T.J., Lazarovitch N. 2014. Spatial and diurnal below canopy evaporation in a desert vineyard: measurements and modeling. Water Resources Research, 50, doi:10.1002/2014WR015409.
29. Colaizzi P.D., Agam N., Tolk J.A., Evett S.R., Howell T.A., Gowda P.H., O’Shaughnessy S.A., Kustas W.P., and Anderson M.C. 2014. Two source energy balance model to calculate E, T, and ET: Comparison of Priestley–Taylor and Penman–Monteith formulations and two time scaling methods. Transactions of American Society of Agricultural and Biological Engineers, 57, 479-498.
28. Holland S., Howard A., Heitman J.L., Giese W., Sutton T., Agam N., Ben-Gal A., Havlin J.L., Sauer T.J. 2014. Implications of an Interrow Fescue Cover Crop for Below-Canopy Water Dynamics in a North Carolina Vineyard. Agronomy Journal, 106, 1267-1274.
27. Agam N. 2014. Comment on "Microlysimeter station for long term non-rainfall water input and evaporation studies" by Ucles et al. Agricultural and Forest Meteorology, 194, 255–256.
26. Kool D., Agam N., Lazarovitch N., Heitman J., Sauer T., Ben-Gal A. 2014. Review on partitioning evapotranspiration into evaporation and transpiration components. Agricultural and Forest Meteorology, 184, 56-70.
25. Agam N., Segal E., Peeters A., Levi A., Dag A., Yermiyahu U., Ben-Gal A. 2014. Spatial Distribution of Water Status in Irrigated Olive Orchards by Thermal Imaging. Precision Agriculture, 15, 346–359.
2013
24. Holland S., Heitman J.L., Howard A., Sauer T.J., Giese W., Ben-Gal A., Agam N., Kool D., and Havlin J. 2013. Micro-Bowen Ratio System for Measuring Evapotranspiration in a Vineyard Interrow. Agricultural and Forest Meteorology, 117, 93-100.
23. Agam N., Cohen Y., Alchanatis V., Ben-Gal A. 2013. How sensitive is the CWSI to changes in solar radiation? International Journal of Remote Sensing, 34, 6109-6120.
22. Agam N., Cohen Y., Berni J.A.J., Alchanatis V., Kool D., Dag A., Yermiyahu U., Ben-Gal A. 2013. An Insight to the Performance of Crop Water Stress Index for Olive Trees. Agricultural Water Management, 118, 79-86.
2012
21. Prueger J.H., Alfieri J.G., Hipps L.E., Kustas W.P., Chavez J.L., Evett S.R., Anderson M.C., French A.N., Neale C.M.U., McKee L.G., Hatfield J.L., Howell T.A.,Agam N. 2012. Patch scale turbulence over dryland and irrigated surfaces in a semi-arid landscape during BEAREX08. Advances in Water Resources, 50, 106-119.
20. Agam N., Kustas W.P., Evett S.R., Colaizzi P.D., Cosh M., McKee L.G. 2012. Soil heat flux variability influenced by row direction in irrigated cotton. Advances in Water Resources, 50, 31-40.
19. Agam N., Evett S.R., Tolk J.A., Kustas W.P., Colaizzi P.D., Alfieri J.G., McKee L.G., Copeland K.S., Howell T.A., Chávez J.L. 2012. Evaporative loss from irrigated interrows in a highly advective semi-arid agricultural area. Advances in Water Resources, 50, 20-30.
18. Alfieri J.G., Kustas W.P., Prueger J.H., Hipps L.E., Evett S.R., Basara J.F., Neale C.M.U., French A.N., Collaizzi P.D., Agam N., Chavez J.L., Howell T.A. 2012. On the discrepancy between eddy covariance and lysimetry-based surface flux measurements under strongly advective conditions. Advances in Water Resources, 50, 62-78.
17. Colaizzi P.D., Kustas W.P., Anderson M.C., Agam N., Tolk J.A., Evett S.R., Howell T.A., Gowda P.H., O’Shaughnessy S.A. 2012. Two-source energy balance model estimates of evapotranspiration using component and composite surface temperatures. Advances in Water Resources, 50, 134-151.
16. Evett S.R., Agam N., Kustas W.P., Colaizzi P.D., Schwartz R.C. 2012. Soil profile method for soil thermal diffusivity, conductivity and heat flux: Comparison to soil heat flux plates. Advances in Water Resources, 50, 41-54.
2010
15. Ben-Gal A., Kool D., Agam N., van Halsema G.E., Yermiyahu U., Yafe A., Presnov E., Erel R., Majdop A., Zipori I., Segal E., Rüger S., Zimmermann U., Cohen Y., Alchanatis V., Dag A. 2010. Whole-tree water balance and indicators for short-term drought stress in non-bearing ‘Barnea’ olives. Agricultural Water Management, 98, 124-133.
14. Agam N., Kustas W.P., Anderson M.C., Norman J.M., Colaizzi P.D., Howell T.A., Prueger J.H., Meyers T. and Wilson T. 2010. Application of the Priestley-Taylor Approach in a Two-Source Surface Energy Balance Model. Journal of Hydrometeorology, 11, 185-198.
13. Karnieli A., Agam N., Pinker R.T., Anderson M.C., Imhoff M.L., Gutman G.G., Panov N. and Goldberg A. 2010. Use of NDVI and land surface temperature for drought assessment: Merits and limitations. Journal of Climate, 23, 618-633.
2009
12. Ben-Gal A., Agam N., Alchanatis V., Cohen Y., Yermiyahu U., Zipori I., Presnov E., Sprintsin M. and Dag A. 2009. Evaluating water stress in irrigated olives: correlation of soil water status, tree water status, and thermal imagery. Irrigation Science, 27, 367-376.
2008
11. Anderson M.C., Norman J.M., Kustas W.P., Houborg R., Starks P.J., and Agam N. 2008. Mapping coupled carbon and water fluxes at the land surface using thermal remote sensing data. Remote Sensing of Environment, 112, 4227–4241.
10. Agam N., Kustas W.P., Anderson M.C., Li F. and Colaizzi P.D. 2008. Utility of thermal image sharpening for monitoring field-scale evapotranspiration over rainfed and irrigated agricultural regions. Geophysical Research Letters, 35, L02402, doi:10.1029/2007GL032195.
2007
9. Katata G., Haruyasu N., Ueda H., Agam N. and Berliner P.R. 2007. Development of a land surface model including evaporation and adsorption processes in the soil for the land-air exchange at arid regions. Journal of Hydrometeorology, 8, 1307–1324.
8. Agam N., Kustas W.P., Anderson M.C., Li F. and Colaizzi P.D. 2007. Utility of thermal sharpening over Texas High Plains irrigated agricultural field. Journal of Geophysical Research – Atmosphere, 112, D19110, doi:10.1029/2007JD008407.
7. Agam N., Kustas W.P., Anderson M.C., Li F. and Neale C.M.U. 2007. A vegetation index based technique for spatial sharpening of thermal imagery. Remote Sensing of Environment, 107, 545-558.
2006
6. Karnieli A., Bayasgalan M., Bayarjargal Yu., Agam N., Khudulmur S. and Tucker C.J. 2006. Comments on the use of the Vegetation Health Index over Mongolia. International Journal of Remote Sensing, 27, 2017-2024.
5. Agam N. and Berliner P.R. 2006. Dew formation and water-vapor adsorption in semi-arid environments - A review. Journal of Arid Environments, 65, 572-590.
4. Ben-Ze’ev E., Karnieli A., Agam N., Kaufman Y. and Holben B. 2006. Assessing vegetation condition in the presence of biomass burning smoke by applying the Aerosol-Free Vegetation Index (AFRI) on MODIS images. International Journal of Remote Sensing, 27, 3203–3221.
2004
3. Agam (Ninari) N., Berliner P.R., Zangvil A. and Ben-Dor E. 2004. Soil water evaporation during the dry season in an arid zone. Journal of Geophysical Research – Atmosphere, 109, D16103, doi:10.1029/2004JD004802.
2. Agam (Ninari) N. and Berliner P.R. 2004. Diurnal water content changes in the bare soil of a coastal desert. Journal of Hydrometeorology, 5, 922-933.
2002
1. Ninari N. and Berliner P.R. 2002. The role of dew in the water and heat balance of bare Loess soil in the Negev Desert: Quantifying the actual dew deposition on the soil surface. Atmospheric Research, 64, 325-336.
Book chapters
2. Behrendt T., Agam N., Horn M.A. 2019. Microbial Nitric Oxide, Nitrous Oxide, and Nitrous Acid Emissions from Drylands . In: D’Odorico P. et al. (eds.). Dryland Ecohydrology, Springer Nature Switzerland AG, DOI: 10.1007/978-3-030-23269-6_13.
1. Kustas W.P., Agam N. Soil Evaporation. 2013. In: Wang Y.Q. (Ed.). Encyclopedia of Natural Resources. Taylor & Francis, New-York.
1. Kustas W.P., Agam N. Soil Evaporation. 2013. In: Wang Y.Q. (Ed.). Encyclopedia of Natural Resources. Taylor & Francis, New-York.