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Water is a vital component for agricultural productivity; however, freshwater supplies are limited and are dwindling worldwide. Water for agriculture is an extreme issue for the southern region of Texas, where water supplies from reservoirs are used for municipal, industrial, and agricultural purposes. Due to intensive and prolonged intermittent droughts in south Texas, freshwater sources can deplete rapidly leaving growers on water restrictions. One potential solution of reducing the amount of water for crops is by applying less water than recommended crop evapotranspiration requires. Deficit irrigation (DI) is the practice of applying lower amounts of water than general crop requirements to increase water use efficiency for economic benefit. Deficit irrigation practice has been shown to be beneficial to some fruit and vegetable crops, but to a lesser extent in south Texas for mild heat pepper plant production. The purpose of this project was to analyze how watering jalapeño and serrano pepper plants at different levels of DI would impact plant growth and fruit yield in a greenhouse study. Deficit irrigation treatments were performed by irrigating pots at increasing the number of days between irrigation events (water application: 2, 4, 8, and 12 days) to create increasing water stress levels to plants. Plant growth and biomass data was collected to determine the impact of increasing deficit irrigation on plant shoot productivity. In both varieties, plant biomass steadily decreased as water application decreased. Serrano peppers grown at both 4d and 2d between water application events produced identical yields, however, increased water stress immediately impacted jalapeño peppers with lower yield. The encouraging results from serrano peppers suggest a potential economic benefit for deficit irrigation water use practices applied to this pepper variety. 

Water is a vital component for agricultural productivity; however, freshwater supplies are limited and are dwindling worldwide. Water for agriculture is an extreme issue for the southern region of Texas, where water supplies from reservoirs are used for municipal, industrial, and agricultural purposes. Due to intensive and prolonged intermittent droughts in south Texas, freshwater sources can deplete rapidly leaving growers on water restrictions. One potential solution of reducing the amount of water for crops is by applying less water than recommended crop evapotranspiration requires. Deficit irrigation (DI) is the practice of applying lower amounts of water than general crop requirements to increase water use efficiency for economic benefit. Deficit irrigation practice has been shown to be beneficial to some fruit and vegetable crops, but to a lesser extent in south Texas for mild heat pepper plant production. The purpose of this project was to analyze how watering jalapeño and serrano pepper plants at different levels of DI would impact plant growth and fruit yield in a greenhouse study. Deficit irrigation treatments were performed by irrigating pots at increasing the number of days between irrigation events (water application: 2, 4, 8, and 12 days) to create increasing water stress levels to plants. Plant growth and biomass data was collected to determine the impact of increasing deficit irrigation on plant shoot productivity. In both varieties, plant biomass steadily decreased as water application decreased. Serrano peppers grown at both 4d and 2d between water application events produced identical yields, however, increased water stress immediately impacted jalapeño peppers with lower yield. The encouraging results from serrano peppers suggest a potential economic benefit for deficit irrigation water use practices applied to this pepper variety.