Jon M. Trappe scite author profile

Bermudagrass (Cynodon spp.) and zoysiagrass [Zoysia spp. (Willd.)] are two of the most commonly used turfgrass species in the southern United States. Shade from trees is common on golf courses and limits turfgrass growth. Additionally, turfgrasses used on golf courses and sports fields are often subjected to traffic. The objective of this study was to evaluate shade and traffic effects on bermudagrass and zoysiagrass. Two shade treatments were imposed, full sun or 49% shade, using a light reducing fabric. A Cady Traffic Simulator was used to implement traffic stress. The cultivars with the highest coverage in shade without traffic were ‘Cavalier’, ‘Diamond’, ‘El Toro’, ‘Meyer’, ‘Palisades’, and ‘Zorro’ zoysiagrass, as well as ‘Princess 77’ and ‘Riviera’ bermudagrass. ‘Patriot’, ‘Tifsport’, and ‘Tifway’ bermudagrass and ‘Zenith’ zoysiagrass typically had the lowest coverage. Patriot bermudagrass and Zenith zoysiagrass consistently had the lowest coverage in shaded trafficked plots. El Toro, Palisades, and Zorro zoysiagrass as well as Princess 77, Riviera, Tifsport, and Tifway bermudagrass had the highest coverage (>72%) when trafficked under full sun for 4 wk. Coverage in shaded plots was decreased more from traffic than full‐sun plots. Riviera and Tifway bermudagrass had the most coverage after 6 wk of traffic in full sun. These studies identified cultivars of bermudagrass and zoysiagrass that perform better under reduced light and traffic stress.

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Turfgrass Selection and Grass Clippings Management Influence Soil Carbon and Nitrogen Dynamics

Law

Trappe

Jiang

et al. 2017

Agronomy Journal

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Core Ideas Less than 3 yr post‐establishment, tall fescue accumulated more soil C (i.e., labile soil C, total soil C, and soil organic matter) than Kentucky bluegrass. Returning grass clippings for 2 yr increased both soil C (i.e., labile soil C and total soil C) and N (i.e., total soil N) compared to collecting clippings over the same period. Labile soil C increased linearly over the 5 yr of the experiment. Little information is available about how grass species and management practices, such as grass clippings management, influence soil C and N accumulation, especially labile soil C. Thus, the objective of this field experiment was to determine the labile soil C, total soil C, soil organic matter (SOM), and total soil N accumulation of Kentucky bluegrass (Poa pratensis L.) and tall fescue [Schedonorus arundinaceus (Schreb.) Dumort. syn. Festuca arundinacea Schreb. syn. Lolium arundinaceum (Schreb.) Darbysh.] cultivars with differing growth rates under different grass clippings management practices. Differences in labile and total soil C occurred between turfgrass species after less than 3 yr of growth post planting: labile soil C was 9.9% higher (851 vs. 774 mg C kg−1 soil), total soil C was 4.2% higher (24.8 vs. 23.8 g C kg−1 soil), and SOM was 8.0% higher (41.7 vs. 38.6 g SOM kg−1 soil) for tall fescue than Kentucky bluegrass. After 2 yr of clippings management treatments, plots where grass clippings were returned had 3.3% more labile soil C (826 vs. 800 mg C kg−1 soil), 3.3% more total soil C (24.7 vs. 23.9 g C kg−1 soil), and 4.6% more total soil N (2.28 vs. 2.18 g N kg−1 soil) than those where clippings were collected. However, grass clippings management did not affect SOM. The results of this study highlight the importance of turfgrass selection and grass clippings management on soil C and N accumulation.

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Divot Resistance Varies among Bermudagrass and Zoysiagrass Cultivars

et al. 2011

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Divots created by a golf stroke are a natural occurrence on golf courses and the resistance of turf to divot injury is an important factor that should be considered when selecting a turfgrass. Therefore, the primary objective of this experiment was to quantify the divot resistance for various bermudagrass {Cynodon spp. Rich.) and zoysiagrass {Zoysia spp. Willd.) cultivars in a field experiment, with a secondary objective to compare evaluation methods for quantifying divot resistance. This study was conducted in Fayetteville, AR. Divot type, severity, and volume as well as a Turfgrass Shear Tester were used to determine divot resistance. 'Riviera' bermudagrass had the largest volume per divot (70 cm^), while the smallest divots (<28 cm^) were observed with 'Cavalier', 'Diamond', and 'Zorro' zoysiagrass. More force was required to displace divots from Diamond zoysiagrass than from Riviera, 'Patriot', or 'Princess 77' bermduagrass. Zoysia matrella (L.) Merr. consistently demonstrated greater divot resistance than Cynodon dactylon (L.) Pers. The four methods for evaluating divot resistance provided similar findings for divot resistance for the cultivars and species tested. These results provide researchers methods for evaluating divot resistance and will allow golf course superintendents to better select cultivars and species that will improve playing conditions and reduce divot injury.

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Cover Technology Influences Warm-season Grass Establishment from Seed

Patton¹,

Trappe²,

Richardson³

2010

hortte

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Covers, mulches, and erosion-control blankets are often used to establish turf. There are reports of various effects of seed cover technology on the germination and establishment of warm-season grasses. The objective of this study was to determine how diverse cover technologies influence the establishment of bermudagrass (Cynodon dactylon), buffalograss (Buchloe dactyloides), centipedegrass (Eremochloa ophiuroides), seashore paspalum (Paspalum vaginatum), and zoysiagrass (Zoysia japonica) from seed. Plots were seeded in June 2007 or July 2008 with the various turfgrass species and covered with cover technologies, including Curlex, Deluxe, and Futerra products, jute, Poly Jute, polypropylene, straw, straw blanket, Thermal blanket, and the control. Establishment was reduced in straw- and polyethylene-covered plots due to decreased photosythentically active radiation penetration or excessive temperature build-up, respectively. Overall, Deluxe and Futerra products, jute, and Poly Jute allowed for the highest establishment of these seeded warm-season grasses.

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Herbicide Tolerance on ‘Sea Spray’ Seashore Paspalum Seedlings

Patton

Trappe

Richardson

et al. 2009

Applied Turfgrass Science

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There are no reports of herbicide tolerance on seedling seashore paspalum (Paspalum vaginatum Sw.). The objective of this study was to determine which herbicides cause the least amount of injury to seashore paspalum seedlings and allow for maximum establishment. Field studies were conducted in 2007 and 2008 to assess the tolerance of ‘Sea Spray’ seashore paspalum to 23 herbicides. Herbicide treatments were applied two weeks after emergence of seedlings and compared to an untreated control. MSMA, imazaquin, fluazifop, triclopyr, siduron, and ethofumesate injured seedlings and reduced establishment. Clopyralid, halosulfuron, metsulfuron, quinclorac, carfentrazone, and salt water provided the least injury to seashore paspalum seedlings while allowing maximum establishment.

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Jon M. Trappe

Shade and Traffic Tolerance Varies for Bermudagrass and Zoysiagrass Cultivars

Turfgrass Selection and Grass Clippings Management Influence Soil Carbon and Nitrogen Dynamics

Divot Resistance Varies among Bermudagrass and Zoysiagrass Cultivars

Cover Technology Influences Warm-season Grass Establishment from Seed

Herbicide Tolerance on ‘Sea Spray’ Seashore Paspalum Seedlings

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