• 아시안잔디학회지
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• 제14권1호
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• pp.263-272
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• 2000

A field study was carried out to find out the effective chemical for controlling algae without visual injury on creeping bentgrass golf greens. The results were as follows. 1. Chlorothalonil(75%), Metalaxy(7.5%)+Mancozeb(56%) and Mancozeb(75%) did not injure creeping bentgrass. Only chlorothalonil(75%) effectively controlled algae regardless of concentration among above mentioned 3 fungicides. 2. Mancozeb frequently used on golf courses showed about 50% effect on controling algae in this study. 3. Mancozeb(75%)+Copper hydroxide(73%) and Mancozeb(75%)+Streptomycin(100%) had good effects on algae control while injuring creeping bentgrass. 4. Copper hydroxide(73%) and copper sulfate basic(58%) $including\ulcorner$Cu$\lrcorner$showed effective algae control but caused injure creeping bentgrass. 5. Streptomycin has been scarcely used on golf greens but streptomycin(20%) 0.1g a.i/$\m^2$ had good control of algae and durability without injuring creeping bentgrass.

• Journal of Plant Biotechnology
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• 제36권4호
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• pp.327-335
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• 2009

Creeping bentgrass (Agrostis stolonifera L.) is economically important as the principal turfgrass species for golf course greens and fairways in temperate climates around the world. As the utilization area of the turfgrass species increases recently, the demand for new and improved cultivars increases. Thus, substantial progress has been made in applying modern biotechnology to develop genetically engineered (i.e., biotech) creeping bentgrass with new traits that eluded the breeders. This review article addresses the advances made in developing biotech creeping bentgrass, which are categorized in the following topics: (i) genetic transformation of creeping bentgrass, (ii) development of various biotech creeping bentgrasses by genetic engineering, and (iii) progresses in the deregulation of herbicideresistant creeping bentgrass.

• 한국조경학회지
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• 제22권1호
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• pp.101-110
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• 1994

A field study was carried out to investigate the visual injury of zoysiagrass and creeping bentgrass by the application of various herbicides the result were as follows. 1. Trifluralin + benefin and dithiopyr did not injure creeping bentgrass and zoysiagrass. 2. Creeping bentgrass was safe while zoysiagrass was slightly injured within acceptable level with benefin. 3. Oryzalin caused injury both on creeping bentgrass and zoysiagrass. However, the injury of zoysigrass was within acceptable level while the injury of creeping bentgrass increased without acceptable level when applied at>5kg/ha. 4. Creeping bentgrass was tolerant to pendimethalin only when treated at<3.4kg/ha whereas zoysiagrass was tolerant regardless of rate. 5. Creeping bentgrass treated with fenoxaprop, oxadiazon, and bensulide were severely injured. However, turfgrasses treated with bensulide recovered rapidly when compared with fenoxaprop and oxadiazon. 6. Zoysiagrass treated with 2,4-D, dicambe, bentazon was safe when applied at mid summer.

• 한국초지조사료학회지
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• 제26권4호
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• pp.267-276
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• 2006

월동기간 동안 zoysiauass [Zoysia matrella (L.) Merr]와 creeping bentgrass(Agrostis palustris Hunds)의 뿌리에서 저온 스트레스에 대한 생리학적 반응을 규명하기 위해 지질과산화 정도와 효소적 항산화 반응 및 탄수화물의 변화를 조사하였다. 1월 말 Creeping bentgrass의 뿌리 고사율은 zoysiagrass 보다 약 20% 현저히 높게 나타났다. Creeping bentgrass의 뿌리 성장은 온도변화와 거의 평행하게 변화하였으나 zoysiauass는 뿌리 성장에 거의 변화가 없이 4월 말까지 유지되었다. Polyssacharide(starch+fructan)의 함량은 두 품종에서 별다른 차이는 발견되지 않았으나 zoysiagrass의 총비구조적 탄수화물이 creeping bentgrass에 비해 약 10% 높게 나타났다. Malondialdehyde(MDA)의 농도는 creeping bentgrass에서 현저히 높게 나타났다. Creeping bentgrass의 peroxidase의 활성은 zoysiagrass에 비해 약 4.2 배 높았으나 superoxide(SOD)와 catalase(CAT)의 활성은 각각 22%와 67% 낮았다. 이상의 결과들은 creeping bentgrass 보다 zoysiagrass가 월동 기간 중 저온 내성 메커니즘을 우선적으로 작동시키며 저온 스트레스에 대해 덜 민감하다는 것을 잘 나타내고 있다.

• 아시안잔디학회지
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• 제26권2호
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• pp.135-139
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• 2012

Creeping bentgrass 는 골프장의 티나 퍼팅그린 그리고 경기장과 같이 집중관리가 요구되는 곳에 가장 많이 사용되는 잔디의 종류중 하나이다. 골프장에서 계속해서 발생하는 디봇과 같은 피해는 골프장을 관리하는데 있어서 가장 큰 장애요인중 하나이다. 디봇피해를 회복하기 위한 많은 연구결가가 선행 되었음에도 불구하고, 질소의 유형에 따른 디봇피해의 회복에 대해서는 그 연구결과가 제한적이다. 본 연구는 creeping bentgrass 에 발생한 디봇 피해에 대한 질소의 유형별 효과에 대해 알아보기 위해서 수행되었다. 11가지 질소가 creeping bentgrass 'Penncross' 에 시비되었다. 첫번째 시비처리 이전에 일정한 단위규격당 디봇피해가 만들어 졌으며 피해가 생긴 빈자리에 원토양이 채워졌다. 실험기간동안 잔디의 색과 질이 평가되었다. 질소의 분해속도에 따른 효과는 디봇피해를 회복시키거나 creeping bentgrass 생육에 대해 영향을 미치지는 않았다. 총 4번에 걸쳐 시비한 urea 처리구는 질소가 시비되지 않은 대조구와 비교했을때 디봇의 회복이나 creeping bentgrass 생육에 대해 차이가 나타나지 않았다. 디봇피해에 대한 회복과 creeping bentgrass 생육에 대해 polyon 제품군, 특히 polyon mini (41-0-0)가 가장 좋은 효과를 보여 주었다. 본 실험결과 입자의 지름이 작은 완효성질소가 입자의 지름이 큰 완효성질소나 속효성질소 보다 creeping bentgrass 에 발생한 디봇피해의 회복에 좋은 효과를 나타냈다.

• 한국초지조사료학회지
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• 제33권3호
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• pp.167-170
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• 2013

This study examined the growth performance and field evaluation of the dual herbicide-resistant transgenic creeping bentgrass plants. The effect of glyphosate treatment on the herbicide resistance of the transgenic creeping bentgrass plants was determined, and the non-transgenic control plant withered at the concentration $11{\mu}g/mL$ or higher whereas the transgenic creeping bentgrass plants survived the treatment at the concentration of $3,000{\mu}g/mL$, and the increase of the plant length was repressed as the glyphosate treatment concentration was increased. At field evaluation, glufosinate-ammonium and glyphosate were simultaneously treated to investigate the weed control effect. The results showed that more than 90% of the weeds withered four week after herbicide treatment, while the transgenic creeping bentgrass plants continued to grow normally. Therefore, the dual herbicide-resistant creeping bentgrass plants may be able to greatly contribute to the efficiency of weed control and to the economic feasibility of mowing in places such as golf courses.

• Weed & Turfgrass Science
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• 제1권4호
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• pp.64-68
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• 2012

Creeping bentgrass 는 골프장의 티나 퍼팅그린 그리고 경기장과 같이 집중관리가 요구되는 곳에 가장 많이 사용되는 잔디의 종류중 하나이기도 하지만 Kentucky bluegrass에 침입하는 방제하기 어려운 잡초이기도 하다. Mesotrione은 선택성 제초제이며 처음에 옥수수를 위해 등록이 되었으며, 광엽잡초를 방제하기 위한 발아전 혹은 발아후 제초제로 이용이 되고 있다. Mesotrione가 creeping bentgrass를 방제하기 위한 효과는 많은 선행연구에 의해 보고가 되어 왔다. Mesotrione이 creeping bentgrass 방제에 효과가 있어도 방제가 된 후 피해가 발생한 곳의 회복은 Kentucky bluegrass의 지하부와 rhizome 등에 의해 회복되기 까지는 시간이 오래 걸린다. 덧파종은 일반적으로 피해를 입은 곳을 회복 시키거나 밀도를 높이기 위해서 사용이 된다. 실험의 목적은 mesotrione과 덧파종이 Kentucky bluegrass에 침입한 creeping bentgrass를 방제하고 회복하기 위한 효과를 조사하기 위해서 수행이 되었다. 0, 0.05 and 0.10 m $ml^{-2}$의 세가지 mesotrione농도와 15와 30 g $m^{-2}$ 두가지의 Kentucky bluegrass 덧파종량의 총 6가지 처리가 적용이 되었다. Mesotrione과 Kentucky bluegrass 덧파종을 동시에 처리 하는 것은 creeping bentgrass 방제에는 효과가 있으나 Kentucky bluegrass 회복에는 효과가 나타나지 않았다. Creeping bentgrass방제 효과는 mesotrione의 처리에 의한 것이며 덧파종에 의한 것은 아닌 것으로 나타났다. Mesotrione의 효과를 극대화 하기 위해서는 본 실험결과 $20^{\circ}C$ 이상일 때가 더 효과가 좋은 것으로 판단된다.

• Journal of Ecology and Environment
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• 제38권4호
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• pp.437-442
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• 2015

Studies to estimate seed longevity and dormancy of creeping bentgrass (Agrostis stolonifera L.) were conducted from 2000 to 2005 at Corvallis and Hermiston, Oregon. Seeds from three transgenic glyphosate resistant creeping bentgrass lines, 48-10, 48-13, and ASR368, and one non-transgenic glyphosate susceptible line, SR1020, were used. Creeping bentgrass seeds were buried at 3, 18 and 31 cm in 2000 and removed 6, 12, 18, 24, and 51 months later. Soil type and climatic conditions were different at the two locations. At Corvallis, the soil was a Malabon silty clay loam, and the winters wet and mild. The soil at Hermiston was an Adkins fine sandy loam, and winters drier and colder. Seeds of all creeping bentgrass lines deteriorated faster at Corvallis than at Hermiston. The estimated half-lives of creeping bentgrass lines buried at Corvallis were 8.4 to 20.2 months, while those buried at Hermiston were 8.4 to 37.7 months. At both sites, seeds of the glyphosate resistant lines, 48-10 and 48-13, deteriorated faster than the susceptible line, SR1020. However, seed deterioration in the resistant line, ASR368, was slower than all other creeping bentgrass lines. Based on the germination test, exhumed intact seeds at Corvallis were more dormant than those at Hermiston. If buried, it could be expected that viable creeping bentgrass seeds will persist more than 4 years after the seeds are introduced to a site, but environmental conditions can influence both seed longevity and dormancy.

• Rapid Communication in Photoscience
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• 제3권2호
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• pp.28-31
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• 2014

Loss of chlorophyll is the visible symptom of leaf senescence and staygreen refers to the delayed leaf senescence in plants. The staygreen gene (SGR) in rice (Oryza sativa L.) has been identified as its mutation maintains greenness during leaf senescence, and encodes a chloroplast protein required for the initiation of chlorophyll breakdown in plants. In this study, we isolated a rice SGR-homologous gene in creeping bentgrass (Agrostis stolonifera L.), and transgenic creeping bentgrass plants were obtained by introducing pCAMBIA3301 vector harboring antisense SGR gene under control of the senescence-specific SAG12 promoter. Transgenic plants were selected by herbicide resistance assays and genomic integration of the transgenes was confirmed by PCR analysis. Subsequent analyses demonstrated the staygreen phenotype of the transgenic creeping bentgrass plants with decreased chlorophyll loss during leaf senescence. These results suggest that the antisense SGR expression in creeping bentgrass delays leaf senescence, which provides a way to develop genetically engineered turfgrass varieties with the commercially useful staygreen trait.

• 한국환경과학회지
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• 제31권4호
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• pp.311-318
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• 2022

In this study, we analyzed the relationships between weather factors and photosystem II activity (F_v/F_m), as a measure of photochemical efficiency, in three cool-season turfgrasses commonly planted on golf courses in Jeju, South Korea: perennial ryegrass (Lolium perenne L.), Kentucky bluegrass (Poa pratensis L.), and creeping bentgrass (Agrostis palustris Huds.). In all three turfgrasses, F_v/F_m was higher during late summer than during early summer. However, in late summer, F_v/F_m was significantly lower in perennial ryegrass than in the other two species. In early summer, F_v/F_m in perennial ryegrass and Kentucky bluegrass was positively correlated with mean low temperature and extreme minimum temperature, whereas, in late summer, this parameter in Kentucky bluegrass and creeping bentgrass was positively correlated with relative humidity, and in creeping bentgrass was negatively correlated with mean high temperature, mean low temperature, and extreme maximum temperature. These results indicate that raising low temperatures is favorable for perennial ryegrass and Kentucky bluegrass in early summer, whereas, in late summer, the lowering of high temperatures proves to be beneficial for creeping bentgrass, and raising relative humidity is conducive to the growth of Kentucky bluegrass and creeping bentgrass. These findings will contribute to improving the selection and management of turfgrasses on golf courses and sports fields.