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`Hamlin' orange (Citrus sinensis L. Osbeck) was grown on 15 rootstocks: four citrumelos [C. paradisi Macf. × Poncirus trifoliata (L.) Raf.], five mandarin × trifoliate orange hybrids (C. reticulata Blanco × P. trifoliata), two pummelo × trifoliate orange hybrids [C. grandis (L.) × P. trifoliata], Vangasay lemon (C. limon Burm. f.), Norton citrange (C. sinensis × P. trifoliata), and two Smooth Flat Seville (C. aurantium L. hybrid?) hybrids. These scion–rootstock combinations were compared to trees on Swingle citrumelo, the most widely used citrus rootstock in Florida. One Smooth Flat Seville hybrid was eliminated early because of poor growth and variability in size, and the Vangasay lemon rootstock was eliminated because of severe freeze damage. At age 5, the trees on Norton citrange developed citrus blight and were eliminated. Remaining in the experiment for 7 years, `Hamlin' trees on six of the 13 rootstocks produced more fruit than trees on Swingle citrumelo. Of these six, HRS 852 (Changsha mandarin × English large-flowered trifoliate orange) was the best overall rootstock, with trees on it producing large quantities of high-quality fruit on medium-sized canopies.
Abstract
A method was developed to allow nondestructive growth measurements of potato tubers (Solanum tuberosum L.). The technique, consisting of 2 basic components, is simple and effective for observing tuber growth from initiation through maturity. The first component is a “double-pot”, which facilitates washing the growth medium from the tubers. The other component filters the growth medium from the wash water for retrieval and reuse of the medium. Any number of double pots can be used, but only one filtering system is necessary. After observations and measurements have been made, the growth medium can be replaced with little disturbance to the tubers. We generally take tuber growth measurements at 2-week intervals, but we have uncovered tubers at less than one-week intervals without any visible damage.
Abstract
Root and plant growth and tuber development of potato (Solanum tuberosum L.) were considerably better in arcillite than in white quartz sand. Arcillite has several advantages for root and tuber studies requiring minimal damage to the tissue and/or adherence of the media to the root System. Mineral element analysis indicated that various nutrients including boron in arcillite became slowly available for plant growth.
Abstract
Considerable differences exist in the tolerances of onion inbreds to CIPC. Inbreds derived from ‘Iowa Yellow Globe’ were the most tolerant among the inbreds evaluated. Seedlings grown in the laboratory on agar containing the herbicide responded similarly to treated plants in field plots. The laboratory technique provides a fast, efficient method of screening large numbers of inbreds under controlled conditions.
Abstract
Seedstalk height of carrot (Daucus carota L.) was reduced as the post-vernalization temperature increased from 15/21° to 27/32°C (night/day) with no significant effect on flowering and seed formation. Seedstalks of ‘Royal Chantenay ’ carrot were most affected by the high temperatures and ‘Scarlet Nantes’ were the least affected while ‘Danvers 126’ was intermediate. Few plants had macroscopic seedstalk development 6 weeks after vernalization although the temperature during this period had a permanent influence on ultimate seedstalk height. Carrots grown at 27/32° during the initial 6 weeks following vernalization and then transferred to the optimum 15/21° grew no taller than plants held at 27/32°. Vernalization temperatures of 0°, 5°, and 10° for 10 weeks did not affect the percentage of plants flowered, time of bolting, or rate of seedstalk elongation. Ultimate seedstalk height was reduced only in ‘Royal Chantenay’ vernalized at 10°. Flowering was decreased by post-vernalization temperatures of 27/32° and 2l/27°C when carrots were stored only 5 weeks at 5° but not, after storage for 10 weeks or more. Increasing the vernalization time to 10 weeks hastened the rate of bolting in all three cultivars and increased ultimate seedstalk height in only ‘Royal Chantenay’ and ‘Danvers 126.’ Temperature during the first year of root growth, foliage removal from mature roots prior to storage, and photoperiod following vernalization did not affect seedstalk elongation or flowering.
Growth chamber studies were conducted to determine if inverse day/night temperature could control canopy height of sweetpotato without adversely affecting storage root yield. Four 15-cm-long vine cuttings of TU-82-155 sweetpotato were grown in rectangular nutrient film technique hydroponic troughs for 120 days. Two troughs were placed into each of six reach-in growth chambers and subjected to 24/18, 26/20, 28/22, 18/24, 20/26, and 22/28 °C, respectively. Growth chamber conditions included a 12/12-h photoperiod, 70% RH, and photosynthetic photon flux of 1000 μmol·m-2·s-1 at canopy level. Total and edible storage root yields were reduced by 50% among plants grown under cool days/warm nights regimes. Harvest index was similar among treatments except for the low value obtained at 22/28 °C. Canopy height was positively correlated with the change in temperature, and for every 2 °C decrease there was a 3.1 centimeter decrease in canopy height. Inverse day/night temperature effectively controlled canopy height but at the expense of storage root production.
Abstract
A soil cooling system was developed using a chest-type freezer as a central cold air reservoir. Thermostatically controlled fans circulate cold air from the freezer into smaller air chambers containing large plastic pots. The system is inexpensive, easily constructed, and provides good soil temperature control.
Abstract
A study was conducted to determine if subjecting potato plants (Solanum tuberosum L. cv. Russet Burbank) to cool growing temperatures during and shortly after tuber formation would induce the development of brown center or hollow heart. Plants were moved at weekly intervals following tuber initiation from warm growing conditions into a 3-week cool environment (10° nights/18°C days). Plants were then returned to warm conditions (18° nights/23° days) for a period of several weeks and harvested. Those plants given the 3-week cool treatment or grown continuously in the cool after tuber initiation showed a significantly higher incidence of brown center.
Abstract
Flowering of rhubarb (Rheum spp.) was affected by plant age and vernalization temperature and by vernalization time in young crowns. Year-old crowns flowered after storage at 0°C or 5°C for 3 months or more. All 19 week-old crowns flowered after storage at 0°C for 3 months or more and some flowered after storage at 5°C. The 16 week-old crowns flowered only after 4½ and 6 months storage at 0°C. None of the 13 week-old crowns flowered. There was no flowering of crowns stored at 10°C regardless of age or length of storage. Growing temperature and photoperiod following vernalization did not influence flowering.
Abstract
Reaction to Xanthomonas phaseoli (E.F. Smith) Dowson, cause of common blight disease in beans, Phaseolus vulgaris L., was inherited quantitatively in the cross early flowering susceptible cv. Great Northern (GN) 1140 × late flowering tolerant line ‘GN Nebr. #1, sel. 27’. F1 populations showed partial dominance for susceptibility at 25 days and nearly complete dominance at 43 days after inoculation. Genes controlling delayed flowering, under long photoperiod and high temp, and tolerant reaction were linked. Early, blight tolerant advanced lines were not obtained by pedigree selection. They were obtained, however, by the backcross method, using ‘GN Nebr. #1, sel. 27’ as the recurrent parent. Different photoperiod × temp regimes in growth chambers induced flowering at the same or different times in nearly-isogenic lines of the same age. Vegetative plants exhibited higher levels of tolerance and lower bacterial populations than did plants in the pod stage. The bacterial population in susceptible ‘GN 1140’ was higher than in early and late tolerant lines.