Virginia market-type peanut cultivars in North Carolina vary in the number of days following emergence required to reach optimum maturity, and concern over cultivar response to interactions of tobacco thrips (Frankliniella fusca Hinds) damage in absence of in-furrow insecticide and injury from paraquat exist with respect to cultivar selection. Experiments were conducted during 2007 and 2008 to determine if cultivars vary in response to interactions of the insecticide aldicarb (no aldicarb or aldicarb applied in the seed furrow at planting) and the herbicide paraquat (no paraquat or paraquat applied 24 to 28 d aft er peanut emergence, DAE). Th e cultivar VA 98R expressed more damage from tobacco thrips than the cultivars Gregory, Perry, or Phillips. Although vegetative growth parameters varied among cultivar, aldicarb, and paraquat treatments, pod yield and market grade characteristics were not aff ected by the interaction of experiment, cultivar, aldicarb, and paraquat or the interaction of cultivar, aldicarb, and paraquat. Damage from tobacco thrips in absence of aldicarb aff ected pod yield more than injury from paraquat. Th e combination of tobacco thrips damage in absence of aldicarb and injury from paraquat lowered pod yield compared with aldicarb-treated peanut either with or without paraquat regardless of cultivar. Th ese data suggest that recommendations on use of aldicarb for tobacco thrips control or paraquat for early season weed control should not vary based on cultivar selection when considering pod yield and market grade characteristics.Abbreviations: DAE, days aft er peanut emergence; ELK, extra large kernels; FP, farmer stock fancy pods; MP, mature pods; SMK, sound mature kernels; SS, sound splits; TSMK, total sound mature kernels.
Sod-based production systems have been successful in the southeastern and mid-Atlantic regions of the United States as an alternative to conventional tillage systems. However, research comparing these systems in North Carolina is limited. Th erefore, research was conducted at four locations in North Carolina to compare corn (Zea mays L.), cotton (Gossypium hirsutum L.), peanut (Arachis hypogaea L.), and soybean [Glycine max (L.) Merr.] yield when these crops were strip tilled following 4 yr of continuous tall fescue (Shedonorus phoenix Scop.) vs. 4 yr of either corn or cotton grown in no tillage or strip tillage. Cotton yield was higher following tall fescue compared with yield following agronomic crops. In contrast, yield of corn was lower following tall fescue compared with agronomic crops while peanut and soybean yields were not aff ected by previous cropping history. Additional treatments in peanut included conventional tillage following both cropping systems, and pod yield was lower when peanut was strip tilled into either tall fescue or residue from corn or cotton compared with conventional tillage systems. No major diff erences in soil bulk density at depths of 0 to 8 cm or 8 to 16 cm were noted when comparing tall fescue or agronomic crops either in strip tillage or nontilled zones. Populations of soil parasitic nematodes were oft en lower in peanut following tall fescue than when following agronomic crops. Th ese experiments indicate that sod-based systems may be an eff ective alternative to reduced tillage systems, especially for cotton. However, yield benefi ts were not observed for peanut or soybean and corn was negatively aff ected by tall fescue.Abbreviations: CBR, Cylindrocladium black rot; %ELK, percentage of extra large kernels; %FP, percentage of fancy pods; %OK, percentage of other kernels; %SMK, percentage of sound mature kernels; %SS, percentage of sound splits; %TSMK, percentage of total sound mature kernels; TSW, tomato spotted wilt.
Production of peanut (Arachis hypogaea L.) in reduced tillage is an effective alternative to conventional tillage in the southeastern United States under some conditions. Research was conducted to determine interactions of planting date, tillage system, and cultivar with respect to disease reaction and pod yield of peanut. The cultivars Bailey, CHAMPS, Gregory, Perry, and Phillips were planted in early or late May in reduced or conventional tillage systems from 2008 through 2011 at one location in North Carolina. The interaction of year, tillage system, and cultivar was significant for plant condition rating (PCR), a visible estimate of disease, within 3 d before digging from late September through mid‐October. Pod yield was correlated with PCR in mid‐September (P = 0.0001, R2 = –0.22) and PCR just before digging (P ≤ 0.0001, R2 = –0.31). Disease was less prevalent for the cultivar Bailey and most prevalent for the cultivar Phillips, with disease for the other cultivars intermediate between Bailey and Phillips. Pod yield was influenced independently by cultivar, planting date, and tillage system although each of these factors was affected by year of the experiment. Pod yield was similar in strip tillage and conventional tillage in 3 of 4 yr with yield in strip tillage exceeding conventional tillage in 1 yr. Peanut planted in early May yielded more than peanut planted in late May in 2 of 4 yr. Results indicate that while some differences in disease reaction will occur when comparing cultivars, planting dates, and tillage systems, pod yield will be affected independently by these cultural practices.
Demand for agricultural production systems that are both economically viable and environmentally conscious continues to increase. In recent years, reduced tillage systems, and grass and pasture rotations have been investigated to help maintain or improve soil quality, increase crop yield, and decrease labor requirements for production. However, documentation of the effects of reduced tillage, fescue rotation systems as well as other management practices, including pesticides, on pest damage and soil arthropod activity in peanut production for the Mid-Atlantic US region is still limited. Therefore, this project was implemented to assess impacts of fescue-based rotation systems on pests and other soil organisms when compared with cash crop rotation systems over four locations in eastern North Carolina. In addition, the effects of tillage (strip vs. conventional) and soil chlorpyrifos application on pod damage and soil-dwelling organisms were also evaluated. Soil arthropod populations were assessed by deploying pitfall traps containing 50% ethanol in each of the sampled plots. Results from the present study provide evidence that location significantly impacts pest damage and soil arthropod diversity in peanut fields. Cropping history also influenced arthropod diversity, with higher diversity in fescue compared with cash crop fields. Corn rootworm damage to pods was higher at one of our locations (Rocky Mount) compared with all others. Cropping history (fescue vs. cash crop) did not have an effect on rootworm damage, but increased numbers of hymenopterans, acarina, heteropterans, and collembolans in fescue compared with cash crop fields. Interestingly, there was an overall tendency for higher number of soil arthropods in traps placed in chlorpyrifos-treated plots compared with nontreated controls.
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