Baylee L. Carr scite author profile

Baylee L. Carr

3Publications

9Citation Statements Received

118Citation Statements Given

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103

Affiliations

Rutgers, The State University of New Jersey

Publications

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Spring-seeded cereal rye suppresses weeds in watermelon

et al. 2019

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Weeds can cause significant yield loss in watermelon production systems. Commercially acceptable weed control is difficult to achieve, even with heavy reliance on herbicides. A study was conducted to evaluate a spring-seeded cereal rye cover crop with different herbicide application timings for weed management between row middles in watermelon production systems. Common lambsquarters and pigweed species (namely, Palmer amaranth and smooth pigweed) densities and biomasses were often lower with cereal rye compared with no cereal rye, regardless of herbicide treatment. The presence of cereal rye did not negatively influence the number of marketable watermelon fruit, but average marketable fruit weight in cereal rye versus no cereal rye treatments varied by location. These results demonstrate that a spring-seeded cereal rye cover crop can help reduce weed density and weed biomass, and potentially enhance overall weed control. Cereal rye alone did not provide full-season weed control, so additional research is needed to determine the best methods to integrate spring cover cropping with other weed management tactics in watermelon for effective, full-season control.

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Weed control and crop tolerance with S-metolachlor in seeded summer squash and cucumber

2020

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Abstract Residual herbicides remain the primary tool for efficient weed control in cucurbit crops because of the lack of crop tolerance to many POST herbicide options. Field experiments were conducted in New Jersey in 2018 and 2019 to determine weed control efficacy and tolerance of direct-seeded cucumber ‘Python‘ and summer squash ’Gold Prize‘ to S-metolachlor applied at 0.7 or 1.4 kg ai ha-1 at planting (PRE) or when crops reached the 2nd to 3rd leaf stage (EPOST). Regardless of applied rate, S-metolachlor PRE or EPOST provided 96 to 100% control 3 wk after planting (WAP) of smooth pigweed, large crabgrass, and giant foxtail. S-metolachlor PRE significantly improved American black nightshade and carpetweed control 3 WAP with respect to bensulide, and smooth pigweed with respect to clomazone + ethalfluralin. Summer squash showed excellent tolerance, regardless of S-metolachlor rate or timing of application, with stunting not exceeding 17% 4 WAP and 3% 7 WAP at the 1.4 kg ha-1 rate. Marketable yield decreased by 15% with S-metolachlor PRE or POST at 1.4 kg ha-1 with respect to clomazone + ethalfluralin, a reduction not noted when comparing to bensulide or the handweeded control. Marketable fruit number per plant and individual fruit weight were not affected by Smetolachlor applications. Conversely, cucumber was more sensitive to S-metolachlor than summer squash with 30% seedling emergence reduction and 36 to 43% stunting 4 WAP when S-metolachlor was applied PRE at 1.4 kg ha-1. EPOST application resulted in 15 to 26% cucumber injury 1 wk after treatment (WAT). Marketable yield declined by 21 and 39% with the 0.7 and 1.4 kg ha-1 rates of S-metolachlor, respectively, compared to clomazone + ethalfluralin. Therefore, S-metolachlor may be a novel alternative to already labeled residual herbicides for summer squash but would cause unacceptable injury and yield reduction for supporting its registration on cucumber.

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Weed Control and Tigernut Response to Preemergence Herbicides Applied at Transplanting

Besançon

Carr

Ayeni

2021

hortte

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Tigernut (Cyperus esculentus var. sativus) is a type of sedge that is quickly becoming popular as a superfood. As demand for tigernut continues to increase, more information is needed to develop weed management strategies for the crop to maximize tuber yield and quality. However, no herbicide is currently labeled for use with tigernut. Experimental trials were conducted in 2017 and 2018 to assess crop safety and control of economically important weeds with preemergence herbicides for transplanted ‘NG3’ and ‘OG’ tigernut. Oxyfluorfen applied alone or mixed with pendimethalin provided excellent control (>85%) of smooth pigweed (Amaranthus hybridus), carpetweed (Mollugo verticillata), and large crabgrass (Digitaria sanguinalis), and it did not cause any tigernut injury, stunting, or yield reduction compared with the weed-free control. However, none of the treatments controlled hairy galinsoga (Galinsoga quadriradiata) satisfactorily 2 months after herbicide application. Bensulide alone or associated with oxyfluorfen caused 14% to 25% stunting of tigernut. Bensulide alone only provided short-term control of broadleaf weeds. Increased weed competition and tigernut phytotoxicity associated with bensulide resulted in a 39% reduction in tuber yield compared with oxyfluorfen alone. Finally, S-metolachlor caused up to 78% stunting and a 68% reduction in vegetative tigernut biomass (on average) compared with the weed-free control. Tuber yield was reduced 55% to 97% after S-metolachlor was applied at transplanting. Oxyfluorfen would provide effective weed control up to 8 weeks after treatment in fields where hairy galinsoga is not a weed of concern and fulfill the requirement of a weed-free period without affecting tuber yield of quality.

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Baylee L. Carr

Spring-seeded cereal rye suppresses weeds in watermelon

Weed control and crop tolerance with S-metolachlor in seeded summer squash and cucumber

Weed Control and Tigernut Response to Preemergence Herbicides Applied at Transplanting

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