• Title/Summary/Keyword: 화분매개

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Evaluation of Crop Production Increase through Insect Pollination Service in Korean Agriculture (한국 농업에서 곤충 화분매개 서비스를 통한 식량 생산 증진 기능 평가)

  • Jung, Chuleui;Shin, Jong Hwa
    • Korean journal of applied entomology
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    • v.61 no.1
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    • pp.229-238
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    • 2022
  • Animal pollination is an important ecosystem service provided mostly by diverse insect groups such as bees and hover flies. Maintaining agricultural productivity and securing the nutritional balance are closely tied to human wellbeing. This study aimed to estimate the pollination dependent food production in Korean agricultural system. Crop production data were obtained from Korean statistical information service (KOSIS) data of 2015. By implementing pollination dependency, crop production and market price, contribution of insect pollination to crop production increase were estimated from total 71 crops including 12 cereals, 19 fruits, 18 field vegetables, 13 greenhouse vegetables and 9 specialty crops. Mean pollination dependency of all crops were 29.2% and it was higher on fruits, specialty crops and greenhouse vegetables as well, but low (7.5%) in cereal crops. Pollination dependent (PD) production was estimated as 17.8% of total agricultural crop production with the economic value of 6,850 (6,508-7,193) billion won. Especially, PD production of greenhouse vegetables accounted 49.2% followed by fruits of 42.9%. Even specialty crop also showed higher PD production (35.9%). It was obvious that pollination is the vital service for agricultural production as well as nutritional security in Korea. Further protection and enhancing the pollination service were discussed with integrated pollinator-pest management (IPPM) strategies.

Integrated Pollinator-Pest Management (IPPM) Strategy as Future Apple IPM (사과 IPM 미래 전망: 화분매개자 친화형 병해충 종합관리 (IPPM) 전략)

  • Jung, Chuleui
    • Korean journal of applied entomology
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    • v.60 no.1
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    • pp.145-154
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    • 2021
  • Integrated pest management system in Korean apple has significantly advanced for last few decades. However harmful effects of pesticides threats the ecosystem services of natural enemies and pollinators. Apple require cross-pollination and Insect pollination with diversity and abundance is one of the keys to profitable apple production in quantity and quality as well. Thus crop protection tools are to be administered in harmony to meet the pest suppression and protection of beneficial organisms such as natural enemies and pollinators. Adding onto the established IPM system, integrated pollinator-pest management (IPPM) concept is proposed as the future direction of apple IPM. For this, ecological enginnering of creating habitats for pollinators, landscape management and agroecosytem diversification as well as selective soft pesticide uses on time guided by pest monitoring and phenologyand targeted delivery are further proposed. Recent shift of agroecosystem from climate change and new pest outbreaks require new paradigm of pest management for sustainable agricultural production.

Diversity and Interaction of Pollination Network from Agricultural Ecosystems during Summer (경북과 강원지역 농업생태계에서 여름철 화분매개네트워크 다양성과 상호작용)

  • Son, Minwoong;Jung, Seongmin;Jung, Chuleui
    • Journal of Apiculture
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    • v.34 no.3
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    • pp.197-206
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    • 2019
  • Pollination is an important ecosystem service involved in plant breeding and reproduction. This study analyzed the pollination network, which is the interaction between flowering plants and flower-visiting insects in the agricultural landscape. Flower-visiting insects from blossoms of flowering crops and surrounding plants were quantitatively surveyed during summer time. The pollinator species and abundance on each flowering plant were analyzed. A total of 2,381 interactions were indentified with 154 pollinators on 30 species of plants. Species richness of the pollinators was highest in Coleoptera (34%) followed by Hymenoptera (28%), Diptera (28%) and Lepidoptera (10%). Apis mellifera dominated (50%) followed by Calliphora vomitoria (5.3%) and Xylocopa appendiculata among pollinators, and remaining wild pollinators provided complex interaction. Among plants, Platycodon grandiflorum, Perilla frutescen and Fagopyrum esculentum harbored most pollinators and showed highest interaction frequencies. In the modular analysis, Apis mellifera was located as a hub-species which connect the interaction of others, implying most important role in the network. This results provide the basic information on the pollinator species associated with each crop and pollinator habitat in which plant provide the nectar, pollen and habitat resources for wild pollinators.

Effects of Blooming in Ground Cover on the Pollinator Network and Fruit Production in Apple Orchards (사과원 피복 초생의 개화가 화분매개자 네트워크와 사과 생산에 미치는 영향)

  • Son, Min Woong;Jung, Chuleui
    • Korean journal of applied entomology
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    • v.60 no.1
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    • pp.115-122
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    • 2021
  • Pollinators are not only crucial for plant reproduction, but also important for crop production. These pollinators are affected by the diversity of plants within orchards. Thus, the study investigated the effect of blooming on the ground cover on pollinator diversity, network, fruiting rates and subsequent apple size during harvest season in apple blooming period. Total ten orchards were selected; Five with ground covered mostly by dandelion while the another five without ground cover. The orchards with dandelion bloom showed 16 pollinator groups and 801 pollination network interaction, while 14 pollinator groups and 589 interaction were found from orchards without ground cover blooms. es. Overall pollinators' abundances were not different. But bumble bees and caliphorid flies were more abundant in orchards with ground cover blooming. There was no significant in fruiting rates, but the apple size was significantly bigger in orchards with ground cover. These results may indicate that blooming on the ground cover during apple flowering season would increase pollinator diversity and influence fruit quality later on in apple orchards, and pose importance of floral diversity for sustainable apple production system.

Utilization of Bombus terrestris as a Sweet Cherry Pollinator in Rain-sheltered Growing (생식용 체리 비가림 재배시 서양뒤영벌(Bombus terrestris L.)의 화분매개 곤충 활용)

  • Kwack, Yong-Bum;Kim, Hong-Lim;Choi, Young Hah;Lee, Jae Han
    • Journal of Bio-Environment Control
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    • v.21 no.3
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    • pp.294-298
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    • 2012
  • In sweet cherry (Prunus avium L.) growing there are several severe problem which have to be overcome to produce highly graded fruits because of fruit rots and fruit crackings, if there is frequent precipitation during immature fruit step and picking season. In order to reduce fungicide sprayings and produce qualified fruits in areas with rainy season like as South Korea, rain-sheltered growing is necessary absolutely. Sweet cherry blooms early to medium April in southern area of South Korea. If we depend on honeybees (Apis mellifera) distributed in natural ecosystem, it is not easy to get normal fruit-set every season because of low temperature around blooming time. And also bee keepers seldom sell honeybee hives as a pollinator during spring, instead they keep honeybee hives to get honey. Recently use of B. terrestris as a pollinator of cherry tomato, oriental pumpkin etc. grown in protected cultivation system increase abundantly. Therefore, in this study we studied B. terrestris as an alternate of honeybee to pollinate sweet cherry grown in rain shelter. In part of foraging activity B. terrestris shows staying on a cherry flower for about six second and visiting frequency of 11 flowers per minute. However A. mellifera stayed about 15 second on a flower and visited 4~5 flowers per minute. There were no significant difference in fruit-setting rate and fruit characteristics after using B. terrestris and A. mellifera as pollinators of sweet cherry. Consequently there is no negative effect when we use B. terrestris as an alternate pollinator of A. mellifera in sweet cherry cultivation under rain shelter.

The Influence of Insect Pollination and Artificial Pollination on Fruit Quality and Economic Profit in the 'Niitaka' Pear (Pyrus pyrifolia Nakai) (화분매개곤충과 인공수분이 '신고' 배의 과실품질과 수익성에 미치는 영향)

  • Lee, Kyeong-Yong;Yim, Sun-Hee;Seo, Ho-Jin;Kim, Sun-Young;Yoon, Hyung-Joo
    • Korean Journal of Organic Agriculture
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    • v.24 no.4
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    • pp.759-771
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    • 2016
  • We compared the fruit set and the quality of the 'Niitaka' pear (Pyrus pyrifolia Nakai) among flowers pollinated by two bee species (Apis mellifera and Bombus terrestris) and pollinated artificial. The artificial pollination rate was 1.3 to 1.9 times higher than the bee pollination rate. Moreover, the artificially pollinated flowers produced fruit that was 5 to 10% higher in weight, 2 to 3% larger in size, and had a higher fruit shape index (L/D) than fruit pollinated by the bees. On economic analysis, net profit from insect pollinator was 93.5 to 97.1% of net profit from artificial pollination. Therefore, artificial pollination is more efficient than bee pollination in 'Niitaka' pear. However, regarding fruit quality and net profit, these results suggest that bee pollination can be an good alternative to artificial pollination in 'Niitaka' pear.

Comparison of the pollination activities among honeybee, Apis mellifera, and bumblebees, Bombus ignitus and B. terrestris in the watermelon houses on summer season (꿀벌과 호박벌 그리고 서양뒤영벌의 여름철 시설수박 화분매개활동 비교)

  • Lee, Sang Beom;Choi, Young Cheol;Park, Kwan Ho;Ha, Nam Gyu;Hwang, Seok Jo;Kim, Seung-Ryul
    • Journal of Sericultural and Entomological Science
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    • v.50 no.2
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    • pp.41-47
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    • 2012
  • This study was examined the characteristics on the pollinating activities of Apis mellifera, Bombus ignitus and B. terrestris as pollinators on the watermelon flowers(Citrullus vulgaris Schrad), and the effects of the pollination by pollinators compared to the artificial pollination in the watermelon green houses in Nonsan City on summer season in 2005. As a result, B. ignitus and B. terrestris could not be used for summer season, because the bumblebees were not pollinated effectively indeed even two days after hives were released at watermelon green houses during the summer cultivating period. It could not be controlled a poor watermelon house conditions; high temperature and low humidity on summer season which were the bad environment for pollinating activities of bumblebees. But this study was showed that A. mellifera could be used comparatively good pollinator instead of artificial pollination in spite of the bad environment for bee within the watermelon green houses on summer season.