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Six prodiamine treatments, three applied alone and three applied in combination with methazole, were compared with oxyfluorfen/oryzalin, oxadiazon, and controls (weeded and non-weeded) on ornamental and weed species. Ornamentals included green liriope, Asiatic jasmine, serissa, gardenia, `Needlepoint' holly, Japanese yew, `Prostrata' juniper, and `Carror' azalea. Weeds grown in separate containers were goosegrass, crabgrass, pigweed, and prostrate spurge. At 13 days after treatment (DAT), oxadiazon and oxyfluorfen/oryzalin caused some contact burn on liriope, and the injury persisted until the 81 DAT rating. Methazole/prodiamine treatments caused chlorosis on gardenia leaf tips, with plants recovering by 61 DAT. These combinations also resulted in slight injury to azalea at the first rating, but the injury disappeared by the second rating. Control of goosegrass, crabgrass, and pigweed was good to excellent with all chemical treatments. Control of spurge using oxadiazon and oxyfluorfen/oryzalin decreased at 81 and 100 DAT.
Six prodiamine treatments, three applied alone and three applied in combination with methazole, were compared with oxyfluorfen/oryzalin, oxadiazon, and controls (weeded and non-weeded) on ornamental and weed species. Ornamentals included green liriope, Asiatic jasmine, serissa, gardenia, `Needlepoint' holly, Japanese yew, `Prostrata' juniper, and `Carror' azalea. Weeds grown in separate containers were goosegrass, crabgrass, pigweed, and prostrate spurge. At 13 days after treatment (DAT), oxadiazon and oxyfluorfen/oryzalin caused some contact burn on liriope, and the injury persisted until the 81 DAT rating. Methazole/prodiamine treatments caused chlorosis on gardenia leaf tips, with plants recovering by 61 DAT. These combinations also resulted in slight injury to azalea at the first rating, but the injury disappeared by the second rating. Control of goosegrass, crabgrass, and pigweed was good to excellent with all chemical treatments. Control of spurge using oxadiazon and oxyfluorfen/oryzalin decreased at 81 and 100 DAT.
Abstract
Mature green ‘Homestead’ tomatoes (Lycoperiscon esculentum Mill.) and 3 advanced breeding lines were treated with ethylene gas and some compositional parameters of the treated fruit were compared with those of control fruit. Tomato breeding line T3702j 2 showed a greater response to ethylene treatment than ‘Homestead’ and other advanced breeding lines carrying the crimson (og c) and high pigment-crimson (hp og c) genotypes. Ethylene treatment had negligible effects on the levels of soluble solids, dry matter, ascorbic acid, β-carotene, and lycopene in the genotypes studied. The mean pH of the treated samples was slightly higher than that of the control, but was not statistically significant in all cultivars or breeding lines every year. The data suggest that breeders should pay attention to the response of breeding lines and potential cultivars to ethylene-induced ripening.
Abstract
Application of limestone to a Cahaba sandy loam increased exchangeable soil Ca and decreased extractable soil Al and Mn. Leaf tissue composition of ‘Calhoun Gray’ and ‘Dixielee’ watermelon [Citrullus lanatus (Thunb.) Matsum. & Nakai] was significantly influenced by soil pH. Increased levels of limestone significantly increased tissue Ca and reduced tissue Al and Mn concentrations. High soil acidity was closely associated with high tissue Mn in both cultivars. Tissue Al levels were not as sharply reduced by increasing soil pH as were tissue Mn levels. Tissue Al influences on yield were not significant in either cultivar at any soil pH. In nonlimed plots, ‘Calhoun Gray’ tissue Mn was highly correlated with depressed crop yield, while ‘Dixielee’ produced no marketable fruit at soil pH 5.0. Foliar Mn toxicity symptoms were observed on the 2 cultivars at soil pH 5.0. Maximum watermelon yield was obtained at soil pH 6.0 on plots that received 112 kg N/ha.
Abstract
‘Patriot’ is a determinate tomato (Lycopersicon esculentum Mill.) with excellent fruit color, developed primarily as a fresh-market or home-garden type. It is resistant to root knot and fusarium wilt.
Abstract
Strip tillage was evaluated over a 2-year period as a cropping system for sites unsuitable for conventional tillage. Yields in clean cultivation and in 0.5- and 1.1-m strips tilled in established grass or grass/clover sod were compared in 1982 for sweet pepper (Capsicum annuum L.) and winter squash (Cucurbita maxima L.). Both interspecific and intraspecific competition were determined in 1983 for pepper. Squash yield was improved by a grass/legume sod, but pepper yield was unaffected. Both crops suffered severe competition in 1982 when grown in 0.5-m-wide strips, but yields per hectare in strips 1.1m wide equaled that in clean cultivation. In 1983, however, number of marketable fruit per hectare of marketable yield of pepper in 1.1-m strips was less than that in clean cultivated plots, although total number of harvested fruit did not differ. Both marketable and total pepper yields per hectare were significantly higher in clean cultivation in 1983 than in strips. Increasing the population density of pepper in the strip increased number of fruit harvested and total weight per hectare, and there was a significant benefit in using double rows. Competition in strips accompanying increasing population density seemed to be associated with increased water deficits.
Delineating the depth and extent of the watermelon [Citrullus lanatus (Thumb.) Matsum. & Nak.] root zone assists with proper irrigation management and minimizes nutrient leaching. The objective of this 3-year field study was to measure root distribution and root length density of watermelon (cv. Wrigley) grafted on two different rootstocks (Lagenaria siceraria cv. ‘FR Strong’ and Cucurbita moschata × Cucurbita maxima cv. Chilsung Shintoza) and grown under three soil moisture treatments. Irrigation treatments tested were: no irrigation (NI), briefly irrigated for fertigation and early-season plant establishment; minimally irrigated (MI), irrigated when soil moisture in top 0.30 m of soil fell below 50% available water capacity (AWC); well irrigated (WI), irrigated when soil moisture in top 0.30 m of soil fell below 15% (AWC). Root length density (RLD) was measured from 75-cm-deep soil cores at two locations three times per growing season and a third location at the end of the season. Cores 1 and 2 sample locations were 15 cm to the side of each plant: Core 1 on the same side as the drip tape and Core 2 on the opposite side. At the end of the season, Core 3 was taken 15 cm outside of the bed in bare ground. RLD was significantly greater in the 0- to 30-cm soil depth and dropped dramatically below 30 cm; it was not significantly affected by irrigation treatment or rootstock. Core 1, next to the drip tape, had greater RLD than Core 2, 30 cm from drip tape, but only at the later sampling dates. Roots were found in Core 3 at all depths, but the RLD was significantly less than that measured in Cores 1 and 2. These findings suggest that the effective root zone depth for watermelon is 0 to 30 cm and that the particular scion/rootstock combinations tested in this study do not differ in root system size or location.
Production of high tunnel tomatoes and snapdragons was evaluated over a 2-year period at the Wiregrass Experiment Station, in southeastern Alabama. `BHN 640', `Florida 91', `Sunleaper', and `Carolina Gold', were evaluated in early Spring 2004. Results indicated that `BHN 640' outperformed `Florida 91' and `Carolina Gold' in early production of high tunnel grown tomatoes. A late Fall 2005 study examined `BHN 640' and `Florida 91'. Results indicated that `BHN 640' was superior to `Florida 91' in total marketable fruit. Season extension of both spring and fall tomato production were accomplished. A planting date study was completed in the early Spring 2005. The following four planting dates were evaluated: 31 Jan., 17 Feb., 4 Mar., and 25. Mar 2005. Wind damage to the high tunnel caused some mortality; however, the two earliest planting dates (31 Jan. and 17 Feb. 2005) produced over 10 lbs. of marketable tomatoes per plant. These were both superior to the last planting date of 25 Mar 2005. Cut snapdragons were evaluated for suitable colored mulch (red, white, or blue) and varieties for summer (`Opus Yellow', `Opus Rose', `Monaco Red', and `Potomac Early White') and fall (`Apollo Purple', `Apollo Yellow', `Monaco Red', `Monaco Rose', and `Potomac Early Orange') production. Results indicated that inflorescence length was affected by the color of mulch. The red mulch had increased inflorescence length compared to the white in Summer 2005. The Fall 2005 study revealed that white mulch had longer inflorescence length than the red or blue mulch. Some varietal differences were observed. The `Apollo Purple' had longer stem lengths than all other varieties for the fall study. The summer study revealed that `Opus Yellow' had longer inflorescence lengths than all others but stem lengths were all similar.