Volume 6, Issue 6 (Suppl)
J Geol Geophys, an open access journal
ISSN: 2381-8719
Soil Science 2017
December 04-05 2017
Page 18
conference
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December 04-05, 2017 | Madrid, Spain
Annual Congress on
SOIL SCIENCES
Kelly T Morgan, J Geol Geophys 2017, 6:6(Suppl)
DOI: 10.4172/2381-8719-C1-013
Irrigation management effect on water dynamics of citrus huanglongbing trees and soil
D
ue to production declining and negative economic effects, there is an urgent need for strategies that reduce the impact
of Huanglongbing (HLB) on citrus (Citrus x sinensis (L.) Osbeck). The objective of this study was to evaluate the impact
of different irrigation schedules on soil volumetric water content (θv) and water uptake characteristics of citrus trees affected
by HLB in central and southwest Florida. The study was conducted during two years on five-year-old sweet orange (Citrus x
sinensis (L.) Osbeck) trees located in three commercial groves at Arcadia, Avon Park, and Immokalee, Florida. Three irrigation
treatments included University of Florida, Institute of Food and Agricultural Sciences (UF/IFAS) recommendations, daily
irrigation, and a schedule intermediate to the selected treatments and provided similar volumes of water per week based on
ETo. Sap flow (SF), leaf area, leaf area index, and stem water potential (Ψ) were determined at selected intervals. Also, θv
was measured using capacitance soil moisture sensors at incremental soil depths of 0-15, 15-30, and 30-45 cm. Significant
differences (α=0.05) were found in average SF, leaf area index, Ψ, and θv measurements among treatments. Diurnal SF value
under daily irrigation treatment increased by 91%, 51%, and 105% and θv under daily treatment increased by 39%, 13%, and
57% compared to UF/IFAS irrigation treatment in Arcadia, Avon Park and Immokalee, respectively. Results indicate that, daily
irrigation improves trees water dynamics and greater mean soil water content than UF/IFAS or intermediate treatments and
reduce trees stress with the same volume of irrigation water.
Biography
Kelly T Morgan is a Professor of Crop Irrigation and Nutrient Management at the University of Florida. He has received his graduate degrees from the University of Florida
in Soil and Water Science and Agricultural Engineering Departments. He has worked in University of Florida for 26 years specializing in improving water and nutrient use
efficiency in the sandy soils of central and south Florida. His studies to assess nutrient application rates and irrigation management to increase nutrient use efficiency and
minimize nutrient loss to the environment. He has published over 75 peer reviewed journal papers, 10 book chapters, and nearly 200 other publications.
conserv@ufl.eduKelly T Morgan
University of Florida, USA