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- Author or Editor: Hanna Y. Hanna x
Cucumber (Cucumis sativus L.) double-cropped with tomato (Lycoperscum esculentum Mill.) and staked with the double-cropping system needed less than half the man-hours to stake than the standard system. Tomato rods and tomato plants were not removed which could result in further cost reduction. Glyphosate [N-(phosphonomethly) glycine] was used to kill all the vegetation at a cost of $45-$50/acre. Double-cropped cucumber produced comparable yields of high quality fruits to cucumber staked by the standard system. The standard system produced more No. 2 fruits resulting in more marketable yield. The 2 systems produced an equal percentage of culls or rots. In-row spacing of 22.5 or 30 cm appeared to be the best choice when cucumber was staked by the double-cropping system. The side of the row where cucumber was planted did not affect the yield significantly. However, planting cucumber on both sides gave the highest yield. It appears that there was enough residual fertilizer left over after tomatoes to produce the cucumber crop.
Studies were conducted in Fall 1994 and Summer 1995 to determine growth and yield response of heat-tolerant tomatoes (Lycopersicon esculentum Mill.) to transplant depth, time of daily irrigation, and polyethylene mulch color. Five-week-old tomato transplants were planted to a depth of either 7.5 or 15.0 cm, drip irrigated every other day for 2.5 h starting at either 7:30 am or 2:30 pm for 80 d following transplanting, and mulched with white-surface (white on black) or black polyethylene. Soil temperatures were recorded daily at 4:00 pm for 21 d from the beginning of fruit set (2 weeks following transplanting) until the tomato canopy shaded the mulch surface. Transplanting tomatoes to a depth of 15.0 cm significantly increased marketable yield in both years and the total yield in 1 year of this study. Mean fruit mass was not influenced by transplant depth, but plant dry mass was significantly increased by deeper transplanting in 1995. Morning irrigation increased the marketable and total yields and mean fruit mass in both years and plant dry mass in 1995. White-surface mulch had a similar effect on yield and fruit mass. Soil temperature was significantly lower at the 15.0-cm depth than at 7.5 cm in both years. Morning irrigation and white-surface polyethylene mulch also significantly reduced soil temperature in both years.
Studies were conducted for 2 years in root-knot-nematode-infested soils to determine growth and yield response of `Dasher II' cucumbers (Cucumis sativus L.) to double-cropping with nematode-resistant tomatoes (Lycopersicon esculentum Mill.), using nematode-free cucumber transplants and preplant treatment with ethoprop nematicide. Cucumbers grown following the nematode-resistant `Celebrity' tomato during the same season produced significantly more plant dry weight, more fruit per plant, and higher premium and total yields than did cucumbers double-cropped with the nematode-susceptible `Heatwave' tomato in both years. The cucumber produced longer stems in 1992 and fewer culls in 1993 following resistant tomatoes. Cucumber plants raised in nematode-free soilless mix for 3 weeks before transplanting produced significantly longer stems and more plant dry weight than did direct-seeded cucumbers in 1992, but not in 1993; however, they produced significantly higher premium yield in both years, and higher total yield, more fruit per plant, and fewer culls in 1993. Preplant treatment with ethoprop significantly increased cucumber stem length, dry weight, premium and total yield, and number of fruit per plant in 1992 but not in 1993. Ethoprop treatment had no effect on the percentage of culls in either year. Chemical name used: O-ethyl S,S-dipropyl phosphorodithioate (ethoprop).