Paweł Orliński scite author profile

Persisting drought conditions in California are limiting water allocation for golf course irrigation. A study was conducted at the University of California, Riverside to determine if products including trinexapac-ethyl (TE), a surfactant (Revolution), and nitrogen (N) fertilizer [Gro-Power (5-3-1); SeaBlend (12-4-5) + StressRX (6-0-2) + XP Extra Protection (5-0-0); YaraLiva (15.5-0-0); Turf Royale (21-7-14); each applied at 25 g N m -2 yr -1 ) could enhance quality of 'Princess 77' bermudagrass (Cynodon dactylon L. Pers.) irrigated at 53 or 92% turfgrass evapotranspiration (ET c ) under fairway conditions. Product and irrigation treatments were applied from May through October 2016 and 2017. Every 2 wk, plots were evaluated for visual quality, normalized difference vegetation index, soil volumetric water content using time domain reflectometry, and percent green cover using digital image analysis. Root samples were collected in November of both years, and fall color retention and spring green-up were assessed using digital image analysis. At 92% ET c replacement, visual quality was highest in plots that received TE and surfactant. Although no differences were found among fertilizer treatments, fertilization alone was able to sustain visual quality at a minimally acceptable level at 92% ET c . Surfactant had the greatest positive effect on turf irrigated at 53% ET c , whereas TE did not improve visual quality on the same plots. Overall, results indicate that regular applications of either Revolution surfactant or SeaBlend + StressRX + XP Extra Protection can sustain bermudagrass visual quality at 53% ET c .

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Relationship between chlorophyll ﬂuorescence parameters and quality of the fresh and stored lettuce ( Lactuca sativa L.)

Kowalczyk

Sieczko

Goltsev

et al. 2018

Scientia Horticulturae

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Photosynthetic Efficiency and Yield of Cucumber (Cucumis sativus L.) Grown under HPS and LED Lighting in Autumn–Winter Cultivation

Gajc-Wolska

Kowalczyk

Przybysz³

et al. 2021

Plants

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The objective of this study was to evaluate the effect of the supplemental lighting of cucumber with sodium pressure lamps (HPSs) and light-emitting diodes (LEDs) on photosynthetic efficiency and yield in autumn–winter cultivation. Cucumber plants of the ‘Svyatogor’ F1 midi-cucumber parthenocarpic type cultivar were grown on mineral wool mats in three compartments, differing only in the type of light, i.e., (1) HPS top lighting (HPS) in the first compartment, (2) HPS top lighting and LED panel interlighting (HPS + LED) in the second compartment and (3) LED top lighting and inter-row LED panels (LED) in the third compartment. The photosynthetically active radiation was the same in each compartment. The study showed that the highest commercial yields of cucumber could be achieved under LED light (top and inter-row). The chlorophyll content in the leaf blade of younger leaves was higher in plants under LED lighting. This type of lighting also had a positive effect on the gas exchange of plants (net carbon assimilation, stomatal conductance, transpiration). LED and HPS + LED lighting increased the chlorophyll a fluorescence parameters, such as Fs, Fm’ and vitality index (PI), in both younger and older leaves, which also increased the fruit yield in the tested combinations.

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Fluopyram Controls Shoot-galling Caused by Pacific Shoot-gall Nematode and Improves Turf Quality in Annual Bluegrass Putting Greens

Petelewicz

Orliński

Schiavon

et al. 2020

hortte

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Golf courses in coastal regions of northern California are often faced with severe injury caused by pacific shoot-gall nematodes (Anguina pacificae) on their annual bluegrass (Poa annua) host in putting greens. For years, fenamiphos was used for mitigating disease outbreaks until its registration was withdrawn in 2008. An alternative product containing azadirachtin was intended for nematode suppression. Still, it required repeated applications throughout the year with questionable efficacy, making attempts to lessen the impact of the pathogen costly. This study evaluated fluopyram as a novel nematicide for control of pacific shoot-gall disease. Various application frequencies and rates were tested at several golf courses affected by the nematode. Results revealed that fluopyram applied once at 0.22 lb/acre reduced the number of new shoot-galls and improved annual bluegrass appearance for several months. Increased rates and application frequency occasionally improved the efficacy further. Although the visual quality of turf treated with this plant protection compound was tremendously enhanced, and the number of new shoot-galls was reduced, rarely a significant effect was observed on the population density of several soil-dwelling plant-parasitic nematodes, including pacific shoot-gall nematode. It is hypothesized that fluopyram did not move significantly past the thatch layer and into the soil. However, it effectively reduced the ability of pacific shoot-gall nematode juveniles to induce new shoot galls. Due to its long half-life, it likely protected against both new nematode infections and dissemination of pacific shoot-gall nematode when the shoot-galls decomposed.

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Effects of fungicides on creeping bentgrass health and rooting characteristics under abiotic stress

Schiavon

Petelewicz

Orliński

et al. 2021

Intl Turfgrass Soc Res J

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Positive effects on plant health provided by quinone outside inhibitors (QoI) and other fungicide classes have been previously reported in turfgrass and other agricultural crops. However, most of the research was conducted under controlled environmental rather than field conditions. Two field and one greenhouse experiments were conducted and repeated in southern California from 2011-2013 to test the ability of selected fungicides to retain or improve creeping bentgrass (Agrostis stolonifera L.; CBG) quality and rooting characteristics when exposed to drought stress induced by multiple abiotic stressors, including, heat and traffic. Fungicide treatments were applied on 14-d or 28-d intervals prior to and during implemented stress periods for a total of 2-5 applications and consisted of azoxystrobin, chlorothalonil + acibenzolar-S-methyl (ASM), fluoxastrobin, aluminum tris, penthiopyrad, pyraclostrobin, pyraclostrobin + boscalid tested against a nontreated control (NTC). No disease symptoms were present in any trial site, but the presence of turfgrass pathogens was not determined. Although increased root diameter in comparison to NTC was observed in plants treated with azoxystrobin and pyraclostrobin + boscalid, and increased root volume was observed in pyraclostrobin + boscalid in the greenhouse study, no significant differences in rooting characteristics were found in the field studies. Moreover, none of the fungicide treatments improved turf quality or normalized difference vegetation index (NDVI) in any of the experiments. Results imply that fungicides offer little to no secondary benefits in regard to abiotic stress such as drought alleviation in arid environments, when disease pressure is minimal or absent.

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