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Korean Journal of Breeding Science Korean J. Breed. Sci. 50(3):261-267(2018. 9) Online ISSN: 2287-5174 Print ISSN: 0250-3360 https://doi.org/10.9787/kjbs.2018.50.3.261 원용재 1 이정희 1 양창인 1 김명기 1 장재기 2 조영찬 1 이상복 1 이점호 1 안억근 1 서정필 1 정국현 1 전용희 1 현웅조 1 정응기 1* 하운구 1 김정주 1 오세관 1 최용환 1 강경호 1 성낙식 1 김보경 1 1 농촌진흥청국립식량과학원, 2 농촌진흥청국립원예특작과학원 A Middle Plain Area Adaptable, Multiple Disease Resistant, Medium Maturing Rice Cheongpum Yong-Jae Won 1, Jeong-Heui Lee 1, Chang-Ihn Yang 1, Myeong-Ki Kim 1, Jae-Ki Chang 2, Young-Chan Cho 1, Sang-Bok Lee 1, Jeom-Ho Lee 1, Eok-Keun Ahn 1, Jung-Pil Suh 1, Kuk-Hyun Jung 1, Yong-Hee Jeon 1, Ung-Jo Hyun 1, Eung-Gi Jeong 1*, Woon-Goo Ha 1, Jeong-Ju Kim 1, Sea-Kwan Oh 1, Yong-Hwan Choi 1, Kyeong-Ho Kang 1, Nak-Sig Sung 1, and Bo-Kyeong Kim 1 1 National Institute of Crop Science, RDA, Wanju 565-851, Republic of Korea 2 National Institute of Horticultural and Herbal Science, RDA, Wanju 55365, Republic of Korea Abstract Cheongpum, a japonica rice variety, was developed from a cross between Yeongdeog45 and Samkwang by the rice breeding team at NICS in 2015. The heading date of Cheongpum was August 10 in the middle plain area, which was two days later than that of Hwaseong. Cheongpum had a culm length of 79 cm, which was 5 cm shorter than that of Hwaseong, and 116 spikelets per panicle. The viviparous germination rate of Cheongpum was 27.9%. It showed resistance to blast, bacterial blight (K1, K2, K3 race), and stripe virus, but susceptibility to the K3a race of bacterial blight, dwarf, and black streak dwarf viruses, and plant hoppers. The milled rice of this variety exhibited a translucent and medium short grain shape. The cooked rice grains of Cheongpum had an excellent palatability index (0.41) and lower amylose content (18.8%) than that of Hwaseong. The grain milling characteristics were better than those of Hwaseong, especially the head rice milling recovery ratio and head rice ratio (94.1%). Cheongpum showed 5.36 MT/ha of milled rice productivity at 11 sites under ordinary cultivation (Registration No. 6799). Keywords Rice, Medium maturing, Multi-disease resistance, Excelente eating quality, Cheongpum Received on April 27, 2018. Accepted on June 7, 2018. * Corresponding Author (E-mail: egjeong@korea.kr, Tel: +82-31-695-4022, Fax: +82-31-695-4029) 서언최근우리의벼농사에서쌀은단위면적당생산량위주의수량성에서소비자가좋아하는품질위주의쌀을생산하는농업으로변해가고있다. 특히, 벼품종개발은쌀소비가지속적으로감소하면서쌀재고량의관리비용이발생하고쌀가격하락을방지하기위해적정수량성에밥맛이좋은품종을육성하는데중점을두고있다. 이상기후에따른지구온난화로생태계변동에대한우려가높아지고있는데, 기후변화는지역에따라온도와강수량의변동이나타날수있다. 기후변화의현상으로지구표면의온도높아지고대기권온도가상승이며, 강수량변동으로 국지적인폭우나극한가뭄현상증가를예로들어설명하고있다 (Yun et al. 2001). 한반도의기후변화로기존에없었던돌발병해충발생이빈번해지고벼의성숙기에기상재해가증가하고있다. 이런영향으로우리나라의 2014년경우최근 20년동안에여름기온이가장높았던것처럼벼의등숙기고온은전분의축척에좋지않은영향을미치므로쌀의품질저하및수량감소의원인으로작용하고있다. 따라서이상기후에따른환경변화에적응하려면온도상승에의해출수기가빨라지지않는기본영양생장성과고온에서벼알이충실히영글수있는고온등숙성을가지고있는품종의개발이필요하다 (Ko et al. 2014). 아울러병해충에저항성이 Copyright c 2018 by the Korean Society of Breeding Science This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

韓育誌 (Korean J. Breed. Sci.) 50(3), 2018 있어서농약의살포를줄일수있는복합내병성품종의개발이나도복저항성등내재해성품종의개발이중요한목표로대두되고있다. 중부지역재배에적합한복합내병성및내재해성벼품종은중만생종인최고품질품종인 삼광 (Kim et al. 2007), 중생종으로는줄무늬잎마름병에저항성인 화성 (Moon et al. 1986) 과 중생골드 (Cho et al. 2013) 품종이재배되고있다. 본논문은중부지역작부체계에적합한출수생태형인중생종이면서복합내병성이고도복에강하고밥맛이아주우수한 청품 을개발하였기에품종의육성경위및주요특성을보고하고자한다. 재료및방법본시험은 청품 를 2013 ~ 2015년 3년간중부평야지 6개지역과남부중산간지 3, 동남부해안지1, 중서부해안지 1개등 11개지역에서보통기보비재배로대비품종인 화성 과비교하여지역적응성시험을수행하였다 (RDA 2014a, 2015a, 2016). 중부평야지는 4월 25일에파종하고, 5월 25일에재식거리 30 15 cm로주당 3본씩이앙하였으며, 남부중산간지및중서부해안지에서는재식거리를 30 12 cm로주당 5본씩이앙하였다. 시비량은 N-P 2O 5-K 2O를각각성분량으로 9-4.5-5.7 kg/10a을시용하였다. 질소는기비로 50%, 추비로분얼비 20% 와수비 30% 로 3회에걸쳐분시하였고, 인산은기비 100% 로시용하였고, 칼리는기비 70%, 수비 30% 로나누어시용하였다. 벼잎도열병검정은 14개지역에서밭못자리상태로파종하여 30일후계통들의이병 정도를조사하였다. 흰잎마름병은 K1(HB1013), K2(HB1013), K3(HB1013) 및 K3a(HB1009) 균계를포장에서최고분얼기에개체별로가위절엽접종하여 30일후에이병정도를조사하였다. 유묘바이러스검정은본엽 2~3엽기에보독충접종을 3~4일간실시하고, 접종후 30일에조사하였다. 재해저항성중수발아검정은출수후 40일에이삭을채취하여 25, 포화습도에서발아율을검정하고, 내냉성검정은시험계통을이앙후 20~30일부터등숙기까지 17 의냉수처리하여임실율등을조사한다. 기타농업형질, 수량구성요소, 수량성및도정특성의조사분석이나시험포장의재배관리는농촌진흥청에서발간한신품종개발공동연구사업계획서에준하여실시하였다 (RDA 2013, 2014b, 2015b). 결과및고찰육성경위 청품 은중부지역에서재배하기적합한고품질품종을육성할목적으로 2006년하계에쌀의외관품위가매우좋으며도복에강한중생종 영덕45호 (IT235286) 와흰잎마름병에저항성이며밥맛과도정특성이우수한중만생최고품질품종 삼광 (IT284608) 를인공교배하여교배번호 SR31110을부여한후, F 1 세대 43개체를양성하였다. F 1 세대에서꽃가루배양을실시하여 HB3028번호를부여하고 AC 1 세대에서 200개체를양성하였다. AC 2 세대에서 184계통을전개하여단간이며숙색이우수한 3계통을선발하 z PYT: Preliminary yield test y RYT: Replicated yield test x LAT: Local adaptability test Fig. 1. Pedigree diagram of Cheongpum. 262

Fig. 2. Genealogical diagram of Cheongpum. Table 1. Major agronomic traits and yield components. Cheongpum Hwaseong Heading date Aug.10 * Aug.8 Culm z length 79 ns 84 Panicle length 21 ns 21 No. of panicles /hill 13 ns 13 No. of spikelets /panicle 116 * 98 Ratio of ripened grain 90.3 ns 90.6 1000-grain weight of brown rice(g) 23.0 ns 23.2 z length from soil surface to panicle neck * significant at 5% and respectively 였다. AC 3 세대부터계통육종법으로세대를진전하며주요병해충및미질검정을병행하여유망한 SR31110-HB3028-84-3-2계통을선발하였다. 선발된우량계통에대해 2011년과 2012년에생산력검정시험을실시한결과중생종으로도열병및흰잎마름병에저항성이고, 도복에강한단간이면서쌀외관과밥맛이우수한계통을선발하여수원 567호로계통명을부여하였다. 2013년부터 2015년까지지역적응시험 3년을실시한결과대비품종인 화성 보다내병성, 내도복성및밥맛의매우우수성이인정되어 2015 년 12월농촌진흥청직무육성신품종선정위원회에서최고품질신품종으로선정됨과동시에 청품 으로명명되었다. 청품 의육성과정과계보도는 Fig. 1 및 Fig. 2와같다. 주요특성 1. 주요농업적특성 청품 은중부평야지와중서부해안지보통기재배에서평균출수기가 8월 10로대비품종 화성 보다 2일늦은중생종이다 (Table 1). 간장은 79 cm로화성의 84 cm보다 5 cm 적은단간이고, 이삭길이는 21 cm이고, 주당이삭수가 13개로 화성 하고유사하며, 이삭당벼알수는 116개로 화성 보다 18개많았다. 등숙비율은 90.3% 로대비품종 화성 90.6% 과비슷하며, 현미천립중도 23.0 g으로 화성 과비슷하였다. 2. 병해충저항성 청품 은전국 14개지역에서실시한잎도열병밭못자리검정결과평균 4.4로 화성 의 5.8보다조금강한반응을보였고, 목도열병이병수율은 1.1% 로화성 8.8보다낮았다. 또한 청품 은친화성균주가 40개중 19개로화성의 30개보다적었으며내구저항성이 화성 과비슷한경향이었다 (Table 2). 화성 은흰잎마름병에이병성이지만 청품 은 K1(HB1013 균주 ), K2(HB1013), K3(HB1015) 균계에저항성이고, K3a(HB1009) 균계에는이병성이었다 (Table 3). 청품 은 화성 과같이줄무늬잎마름병에는저항성을보였으며, 오갈병및벼멸구에대한저항성은없었다 (Table 3). 3. 생리장해저항성 청품 은불시출수현상은없고, 성숙기하엽의노화가느렸으며위조현상은나타나지않았다 (Table 4). 냉수처리내랭성검정결과출수지연일수가 화성 보다 1일길었고, 냉수구임실율은 263

韓育誌 (Korean J. Breed. Sci.) 50(3), 2018 Table 2. Reaction to blast disease. Reaction to leaf blast at nursery test (0-9) No. ofested sites(14) R z M S Mean 1 2 3 4 5 Area ratio to leaf lesion of Magnaporthe grisea of sequential plantings Persistence (0-5) No. of susceptible race(40) Reaction to neck blast Ichon Iksan Mean Cheongpum 4 9 1 4.4 * 55 38 45 50 30 5 19 0.2 2.0 1.1 Hwaseong 2 8 4 5.8 80 75 80 40 40 5 30 4.9 12.7 8.8 z R: resistant(0~3); M: moderately resistant(4~6); S: susceptible(7~9) N fertilizer: Blast nursery test=240kg/ha, Neck blast=220kg/ha *: significant at 5% level Table 3. Reaction to bacterial blight, virus disease and insect pests. Bacterial blight Virus diseases Resistance to insects Bacterial blight Stripe Dwarf Black- streak dwarf Resistance to insects K1 K2 K3 K3a Stripe Dwarf Black- streak dwarf Resistance to insects K1 K2 K3 Field (0-9) Stripe Dwarf Black- streak dwarf BPH z SBPH Cheongpum R y R R S R(13.4) S S S S Hwaseong S S S S R(23.3) S S S S z BPH: brown planthopper; SBPH: small brown planthopper. y R: resistance, S: susceptible Table 4. Response to physiological and abiotic stresses. Premature heading Occurrence of wilting Leaf senescence at maturing Discol-oration Heading delay (1-9) z (day) Cold tolerance y Grain fertility PA x Viviparous w germination Cheongpum 0.0 Strong Late 1 10 ns 39 * 6 27.9 * Hwaseong 0.0 Strong Late 1 9 53 6 21.4 z Evaluation at maximum tillering stage (1: tolerance; 9: susceptible) y Cold tolerance was evaluated in Chuncheon cold-water (17 ) irrigated nursery x Phenotypic Acceptability w Germination rate at 7 days after incubation in 25 chamber * significant at 5% level Table 5. Characteristics related to lodging. Plant z hight Third internode length Top fresh weight (g) Breaking strength (g) Moment (g.cm) Lodging index Lodging in the field (0 ~ 9) Cheongpum 97 9.3 15.1 * 876 * 1,189 * 121 3 Hwaseong 104 10.1 10.7 623 867 160 3 z length from upper part of root up to panicle * significant at 5% level 39.0% 으로화성보다낮았으나성숙기내랭성정도는 화성 과비슷한수준을보였다. 출수후 40일경수발아검정에서 27.9% 로 화성 의 21.4% 보다높은발아율을보였다. 청품 은도복특성검정에서대비품종인 화성 보다 3절간장이짧고, 좌절중이무거 우며, 벼키는화성보다 7 cm 작고도복지수가낮아서도복관련특성이우수한품종이고, 포장도복은 화성 과같이 3정도수준으로강한반응을보였다 (Table 5). 264

Table 6. Characteristics related to grain shape and grain quality. Length (mm) Brown rice Width (mm) L/W ratio White core/velly Alkali digestive value (1~7) Protein content Amylose content Palatability of cooked rice (-3~3) Cheongpum 5.17 2.80 1.85 1/0 6.3 ns 6.0 ns 18.8 ns 0.41 Hwaseong 5.09 2.84 1.92 0/1 6.5 6.6 19.7-0.08 Table 7. Characteristics related to milling quality. Milling recovery ratio Head rice milling recovery ratio Brown/rough Milled/brown Milled/rough Head rice Cheongpum 82.3 ns 91.8 ns 75.1 ns 94.1 * 70.7 * Hwaseong 82.2 90.9 74.8 81.6 61.1 * significant at 5% level not significant Table 8. Results of yield potential of Cheongpum on local adaptability test. Culture Season Ordinary planting culture Region Middle plain Tested sites Average milled rice yield (MT/ha) Jungmo1023 Hwaseong '13 '14 '15 Ave.(A) '13 '14 '15 Ave.(B) Suwon 554 592 553 566 507 549 542 533 106 Hwaseong 498 529 589 539 494 495 571 520 104 Yeoju 552 574 554 560 495 532 538 522 108 Yeoncheon 569 569 592 577 529 520 527 525 110 Chuncheon 519 493 519 510 575 558 597 577 88 Cheongju 540 560 497 497 501 506 587 498 102 Average 539 553 551 547 517 527 544 529 104 Boeun 537 632 509 559 497 535 520 517 108 Jinan 499 487 509 498 511 493 506 503 99 SMP z Andong 587 520 494 534 598 498 535 544 98 Average 541 546 504 530 535 509 520 521 102 MWC y Namyang 378 530 446 451 422 510 431 454 99 ENC x Yeongdeok 534 641 543 573 527 608 505 547 105 Average 524 557 528 536 ns 514 528 525 522 103 z SMP: South middle plain area y MWC: Mid-west coastal area x ENC: East-north coastal area Index (A/B) 4. 미질및도정특성 청품 의입형은현미장폭비가 1.85로단원립이고, 백미외관은심백이 1로맑고투명한편이다. 알칼리붕괴도는 6.3이었고, 단백질함량은 6.0% 으로낮은편이고, 아밀로스함량도 18.8% 로 화성 보다낮았다, 식미관능검정결과청품은 0.41로 화성 의 -0.08보다매우우수하였다 (Table 6). 청품 의도정특성중제현 율, 현백률및도정률은 화성 과비슷하였으나도정된쌀의완전미율이 94.1% 로 화성 의 81.6% 보다높았으며, 완전미도정수율은 70.7% 로 화성 의 61.1% 보다우수한특성을보였다 (Table 7). 265

韓育誌 (Korean J. Breed. Sci.) 50(3), 2018 5. 수량성 청품 의백미수량은지역적응시험결과중부평야지및중서부해안지등 11개소에서보통기보비재배평균쌀수량은 5.36 MT/ha 로대비품종 화성 의 5.22 MT/ha 보다 3% 증수된수량성을보였다 (Table 8). 완전미도정수율도 70.7% 로 화성 보다우수하였다. 청품 의쌀수량은중부평야지와중서부해안지등 11개지역에서보통기보비재배평균 5.36 MT/ha로 화성 의 5.22 MT/ha 보다 3% 높았다. 최고품질품종 청품 의적응지역은중부평야지와중서부해안지이다. 재배상의유의점 청품 은질소질비료과용하면쌀품질이좋지않고, 등숙저하, 숙색불량및병해충의발생이우려되므로품종특성에맞는적정균형시비가필요하다. 특히오갈병, 검은줄오갈병및멸구류에저항성이없으므로적기기본방제가필요하고, 성숙기포장에서조기낙수시등숙이불량하여불완전미발생및도정수율이낮아질수있으며, 내랭성에중간정도이므로산간지및냉수용출답이나극만식재배를피해야한다. 적요 청품 은중부지역적응하는고품질품종을육성할목적으로 2006년하계에쌀의외관품질이좋은중생종 영덕45호 와밥맛이좋은중만생 삼광 을인공교배하였다. F 1 을양성하며조기에육성계통의유전특성을고정하고자꽃가루배양을실시하고세대진전후 SR31110-HB3028-84-3-2계통을선발하여수원567호로계통명을부여하였다. 2013년부터지역적응시험 3년을실시하고, 그결과를 2015년 12월농촌진흥청직무육성신품종선정위원회에상정하여신품종으로선정됨과동시에 청품 으로명명되었다. 청품 의출수기는보통기재배에서평균출수기가 8월 10일로 화성 보다 2일늦은중생종이고, 벼간장은 79 cm로 화성 보다 5 cm 작은준단간이며, 이삭길이는 21 cm, 주당이삭수 13개로화성과같은특성이나, 이삭당입수는 116개로 화성 보다많았고. 등숙률은 90.3% 로 화성 과비슷하고, 현미천립중이 23.0 g으로중립종이다. 청품 은도열병에강한저항성을보였고, 흰잎마름병은 K1, K2, K3 균계에저항성을보였지만, 오갈병및멸구류에대한저항성은없었다. 청품 은도복에는강하며, 수발아는화성보다약했지만내랭성은 화성 비슷한수준을보였다. 청품 의백미외관은심백이 1로맑고투명하였다. 알칼리붕괴도는 6.3, 단백질함량은 6.0%, 아밀로스함량은 18.8% 로 화성 보다낮아서미질특성이우수하였고, 관능검정결과밥맛은 0.41로 화성 보다매우우수한품종이었다. 제현율, 현백률및도정률은 화성 과비슷하였으나도정된쌀의완전립률이 94.1% 로 화성 의 81.6% 보다높은편이었고 사사본논문은농촌진흥청연구사업 ( 세부과제명 : 중부지역수요자참여형고품질밥쌀용벼품종개발, 세부과제번호 : PJ013150012 018) 의지원으로수행된결과의일부입니다. REFERENCES 1. Cho YC, Kim MK, Kim YG, Choi IS, Yang CI, Oh MG, Lee JH, Kim JJ, Suh JP, Won YJ, Hwang KH, Oh SK, Lee JH, Chang JK, Roh JH, Lee CK, Ahn EK, Jeong EG. 2013. A medium maturing, high quality, multiple resistant and middle plain area adaptable rice Jungsaenggold. Korean J Breed Sci 45: 457-462. 2. Kim YG, Hong HC, Hwang HG, Choi IS, Cho YC, Baek MK, Choi YH, Kang KH, Shin YS, Lee JH, Kim HY, Yea JD, Ryu HY, Jeong EK, Yang CI, Jung KH, Jeong OY, Jeon YH. 2007. A mid-late maturing, multi-disease resistant and good-quality rice variety Samkwangbyeo. Korean J Breed Sci 39: 582-583. 3. Ko JK, Park HK, Kang SG, Kato H, Ishii T, Nemoto H, Sakai M, Satou K, Ando I, Kim BK. 2014. Comparison of Rice Grain Yield and Quality of Different Maturity Groups by Cultivating in Korea and Japan. Korean J Int Agric 26: 353-359. 4. Lee CK, Kim JH, Shon JY, Yang WH, Yoon YH, Choi KH, Kim KS. 2012. Impacts of climate change on rice production and adaptation method in Korea as evaluated by simulation study. Korean J Agric For Meteorol 14: 207-221. 5. Moon HP, Cho SY, Son YH, Jun BT, Lim MS, Choi HC, Park NK, Park RK, Chung GS. 1986. An anther-derived new high quality and high yield rice variety Hwaseongbyeo. Res Rept RDA(Crops) 28: 27-33. 6. Rural Development Administration(RDA). 2013. 2013 Project plan for collaborative research program to develop new variety of summer crop. pp. 5-48. 266

7. Rural Development Administration(RDA). 2014a. 2013 Report of new cultivars development and research in summer crop. pp. 5-215. 8. Rural Development Administration(RDA). 2014b. 2014 Project plan for collaborative research program to develop new variety of summer crop. pp. 5-50. 9. Rural Development Administration(RDA). 2015a. 2014 Report of new cultivars development and research in summer crop. pp. 5-171. 10. Rural Development Administration(RDA). 2015b. 2015 Project plan for collaborative research program to develop new variety of summer crop. pp. 3-49. 11. Rural Development Administration(RDA). 2016. 2015 Report of new cultivars development and research in summer crop. pp. 3-162. 12. Yun SH, Im JN, Lee JT, Shim KM, Hwang KH. 2001. Climate change and coping with vulnerability of agricultural productivity. Korean J Agric For Meteorol 3: 220-237. 267