MINISTRY OF EDUCATION AND TRAINING MINISTRY OF AGRICULTURE AND RURAL DEVELOPMENT VIETNAM ACADEMY OF AGRICULTURAL SCIENCES ******* PHUNG TON QUYEN STUDY ON RICE BREEDING FOR BROWN PLANTHOPPER RESISTANCE USING MOLECULAR MARKERS Major Field: Genetics and Plant Breeding Code: 62.62.01.11 DOCTORAL THESIS SUMMARY Hanoi - 2014 The Doctoral thesis was completed in: AGRICULTURAL GENETICS INSTITUTE Scientific Supervisors: 1: Assoc Prof Vu Duc Quang 2: Dr Luu Thi Ngoc Huyen Reviewer 1: Reviewer 2: Reviewer 3: The Doctoral thesis was defended at Institute Committee of PhD Dissertation Examination: ……… ………………………………………………………………………………… ………………………………………………………………………… …………… Date: The Ph.D thesis may be found at: .…………………………………… THE PUBLISHED ARTICLES RELATED TO THE CURRENT THESIS Phung Ton Quyen, Nguyen Thi Lang, Luu Thi Ngoc Huyen, Vu Duc Quang (2010), “Evaluation of some brown planthopper resistance of rice lines/varieties in Red River and Cuulong deltas”, Journal of Vietnam Science and Agricultural Technology, No: (14)/2010, pp 8-13 (in Vietnamese) Dinh Van Thanh, Lai Tien Dung, Phan Thi Bich Thu, Luu Thi Ngoc Huyen, Phung Ton Quyen (2011), “Results of evaluating research on brown planthopper resistance Nilaparvata lugens (Homoptera: Delphacidea)”, Final Report of Department of Crops Production, Agricultural Publisher, pp 256-263 (in Vietnamese) Luu Thi Ngoc Huyen, Phung Ton Quyen, Vu Duc Quang (2013), “Application of marker technology to develop inbred rice with brown planthopper resistance”, Journal of Vietnam Science and Agricultural Technology, No:2 (41)/2013, pp 20-25 (in Vietnamese) INTRODUCTION Imperativeness of the dissertation Rice (Oryza sativa L) is an important plant in Vietnam and is a major food source for half of worldwide population One of the feasible strategies is to apply biotechnologies to improve rice yield and generate new rice varieties to ensure the food demand of human Brown Planthopper (Nilaparvata Lugens Stal) is one of serious pests which causes rice yield significant reduction in the rice producing countries, especially in the tropic areas of rice growing in the world In Vietnam, approximately 10% to 30% out of total rice production are annually loss due to planthopper The aim of applying marker assisted selection (MAS) is to use the markers which are linked with the desire QTL/gen to enhance selecting efficiency and shorten the selection time To develop the rice varieties which are resistant with brown planthopper with MAS, mainly depends on the markers have linkage with the brown planthopper resistant gen is possible work Hence, we have concentrated on the topic entitled “Study on rice breeding for brown planthopper resistance using molecular markers ” Objectives of the dissertation Applying marker assisted selection method to develop inbred-elite rice varieties which shown a stability of brown planthopper resistance in the Red River Delta areas Time and areas implementation - From 2007 to 2013 - Agricultural Genetics Institute, Institution of Plant Protection, Center of Technologies Exchange and Extension, Thanh Tri- Ha Noi - Field works was mainly conducted in Nam Dinh, Thai Binh, Ha Nam, Hanoi, provinces Inovative and its contributions - This is one of initial researches on improving rice planthopper resistance by applying molecular breeding in Vietnam, it is also one of part involving to Agricultural Biotechnology Project of MARD - Within of the current dissertation, it has been successfully pyramided two genes (planthopper resistant genes) into one rice variety by use of SSR markers which linked to planthopper resistant genes Significant contributions -Scientific significance: Application molecular markes to generate two rice lines carrying two planthopper resistance genes - Practical significance: The improved line KR8 is a promising line which is possibly released for producing in a large scale Structure of Dissertation The dissertation was presented in 155 pages which included: Introduction pages, Chapter 1: Background and Scientific Basic (51 pages); Chapter 2: Materials and Methods (23 pages); Chapter 3: Results and Discussion (57 pages), included 01 page presented for conclusions and suggestion, and 01 page listed the published article involving the current dissertation result, and reference list (19 pages) Also, the dissertation included 37 Figures, 37 Tables and 167 liturature cited, in which there are 46 Vietnamese research lituratures and 121 English research articles were used, 03 published articles from the current dissertation and appendixes Chapter OVERVIEWS 1.1 Brown planthopper and its resistant characterization in rice 1.1.1 Bio-charateristics of BPH The Brown planthopper (BPH) is among the most important pests of rice which has a scientific name as Nilaparvata lugens Stal 1.1.2 The status of rice losses have caused by BPH in recent years in Vietnam BPH infestation has occurred in recent years, especially in 2000, over 540 thousand hectares of rice were infected by BPH, of which 256 thousand hectares were seriously losses 1.1.3 Characteristics of BPH resistance in rice: 1.1.3.1 Mechanism of pest resistance The pests and insects were become harmful pests when agricultureintensive farming was initially conducted by human 1.1.3.2 Genetics of BPH rice resistance In the great efforts of research on BPH resistance in rice, some major BPH resistant genes in rice have been identified and reported as the listed in the Table 1.1 Table 1.1 BPH resistant genes and the rice varieties (indicator) carrying the resistant genes Indicator lines TN1 Mudgo ASD7 Rathu Heenati Babawee ARC10550 Swarnalata T12 Chinsaba Pokkali O australiensis O officinalis O officinalis O officinalis O officinalis, O australiensis, Rathu Heenati O australiensis O rufipogon Griff AS20-1 O minuta O minuta Resistant gene None Bph1 bph2 Bph3 bph4 bph5 Bph6 bph7 bph8 Bph9 Bph10 bph11(t) bph12(t) Bph6, Bph13 Bph14 Bph15 Bph16 Bph17 Bph18 bph18(t) bph19 Bph20, Bph21 Bph20(t) Bph21(t) D/R D R D R R D R R D D R R D - O rufipogon Griff O eichingeri, O latifolia O officinalis Oryza rufipogon Griff Oryza sativa L Tổ hợp lai TN1xGC9, IS (IR72 x GC9) bph22(t) bph23(t) Bph25 Bph25(t) Bph 26 Bph26(t) Bph27 Bph27 (t) BphZ Bph3+BphZ D - Note: D: Dominance; R: Recessive; (-) Unknown 1.2 Some biotechnology applications in genetic research and rice breeding - Marker assisted selection (MAS) MAS for single trait: The QTL/gen is transferred into elite variety by applying Marker assisted backcrossing (MABC) - Pyramiding 1-2 BPH resistant genes into some elite rice varieties F1 F2 BC1F1 BC2F1 F3 BC3F1 Fn BC4F2BC4F4 BC4F1 Figure Diagram of applying molecular marker to select the rice lines with BHP resistance (Huyen et al., 2011) 1.3 Genetic researches and selecting BPH resistant rice varieties in Vietnam 1.3.1 Identifying the molecular markers linked with the genes and mapping the resistant genes in Vietnam Some molecular markers have linkage with the BPH resistant genes have been identified Constructing a linkage map for BPH resistant gene (BphZ(t)) on the chromosome 4, pyramiding the resistant genes Bph3+BphZ(t) and have developed the potential BHP resistant lines namely IS1.2, IS2.3, RS BphZ(t) gene is being further fine mapped on the chromosome 1.3.2 Improving the BHP resistant rice variety in Vietnam In recent years, the CR203 and CR84-1 were known as medium BPH resistant varieties, however, they were also affected when BPH infestation severely occurred Chapter MATERIALS AND METHODS 2.1 Materials - BPH resistant rice varieties/lines were used as the donor plants: Two BPH resistant genes Bph3 and BphZ(t) have been pyramided in these lines - The recipient plant: IR64 (Tam Dien Bien) - SSR markers linked with Bph3 and BphZ(t) - The BPH resistant rice variety: Ptb33; - The sensitive BPH: TN1 - The controlled variety: KD18 The origin of plant materials: Rice variety/line carrying BPH resistant gene (donor plant) The lines IS1.2, IS2.3 and RS were already pyramided BPH resistant genes Bph3 and BphZ(t), respectively Based on the Bph3 mapping on the chromosome and BphZ(t) on the chromosome 4, the molecular markers (SSR) which have linked with the genes were selected rầy nâu NST số ë lóa Bản đồ LK gen BphZ(t) Figure 2.1 Bph3 mapping in detail Figure 2.2 BphZ(t) mapping in detail (Huyen et al, 2003; 2010) The recipient plant: IR64 variety - BPH pests were collected in the Red River Delta and Thap Muoi areas were used in this study - Chemical agents and other materials were purchased from GenSet, Pharmacia, Sigma, Boehringer, Promega, BioRad, 2.2 Methods 2.2.1 Evaluation on BPH resistance and BPH sensitive of the rice varieties/lines Based on the rank standard of IRRI (5 ranks) and Institute of Plant Protection (10 rank) 2.2.2 Backcrossing, pyramiding BPH resistant genes from the donors to the elite rice variety The parental plants included the donor (carrying BPH resistant genes) and the donor without BPH resistant gene, but has some economic traits 2.2.3 Information collection of molecular markers Most of molecular markers used in this study were collected from the web http://www.gramen.org/cho and some other publications 2.2.4 Method to improve rice BPH resistance by molecular markers techniques - Evaluating and selecting the F2 to F6 generations on the field test - Using SSR markers to identify BPH resistant gene - Testing and confirming the BPH resistant lines which carried the BPH resistant genes in the net house and the field test 2.2.5 Other laboratory techniques - DNA extraction, and purification following the CTAB method - PCR techniques: 2.2.6 Field test The experiments on the field were conducted by Thanh (1986) 2.3 Statistical and data analysis IRRISTART 5.0, Excel 2007 were used in this study Graphical Genotyper (GGT2.0) and methods of statistical analysis another Chapter RESULTS AND DISCUSSION 3.1 Evaluating the rice germplasm and the BPH resistant lines/varieties 1.1 Results of some rice lines/varieties in 2008 Table 3.1 The effects of some rice varieties on the BPH in the Red River Delta and Cuu Long Delta CR203 Resistant gene CR84-1 NN NN Khang dan 18 None N NN Q5 None N NN SL12 None NN NN No Name BPH test on RRD BPH test on CLD NV NN (RM5757 marker linked with BphZ gene) Figure 3.6 Screeing the polymophic markers between the parental plants (RM 3367 has linkage with BphZ(t) gene) Figure 3.7 Screeing the polymorphic markers between the parental plants (RM 3288 marker showed linkage with BphZ(t)) Figure 3.8 Screeing the polymorphic markers between the parental plants (RM6997 marker showed linkage with BphZ(t)) Figure 3.9 Screening polymorphic markers between the parental plants (RM 3735 linked with BphZ(t)) Figure 3.10 Screeing polymorphic markers between the parental plants 11 (RM5714 has a linkage with BphZ(t)) Figure 3.11 Screening polymorphic markers between the parental plants (RM5757 linked with BphZ(t)) RM586; RM588; RM589; and RM190 markers showed linkage with Bph3 gene RM5714; RM3288; RM3367; RM3735; RM5757; and RM6997 exhibited a linkage with BphZ(t) gene, respectively 3.2.4 Screening the individual plants of BC generations carrying BPH resistant gene: 3.2.4.1 Screening BC lines carrying Bph3-BPH resistant gene Figure 3.12 RM588 marker showed a linkage with Bph3, and selected the individual plants of BC1F1 carrying BPH resistant gene Figure 3.13 RM588 markes linked with Bph3 to screen individual plants carrying the BPH resistant gene in the F2 generation 12 Figure 3.14 RM190 marker linked with Bph3 to screen the individual plant carrying BPH resistant gene from the BC lines Figure 3.15 RM588 markes linked with Bph3 to screen individual plants carrying the BPH resistant gene in the BC3F3 generation from the IR64/IS1.2 3.2.4.2 Analysis and identification of the present of BPH resistant BphZ(t) gene in the BC lines Figure 3.16 Use of SSR marker (RM5757) linked with BphZ(t) gene to identify the individual plants carrying BPH resistant gene in BC1F1 Figure 3.17 Use of RM3367 linked with BphZ(t) gene to identify the individual plants carrying BPH resistant gene in the BC line 13 Figure 3.18 Use of RM3735 linked with BphZ(t) gene to identify the individual plants carrying BPH resistant gene in the BC line 3.2.5 Analysis and identifying the individual plants carrying BPH resistant gene in the specific populations 3.2.5.1 Identifying the individual plant carrying BPH resistant Bph3 gene Figure 3.19 Use of RM190 marker linked with Bph3 to select the individual plants carrying BPH resistant gen of KR8 from the IR64/IS1.2 Figure 3.20 Use of RM588 marker linked with Bph3 from combination of IR64/IS to select the individual plants of 64R8-2 (KR8-2) which carrying BPH resistant gene 14 Figure 3.21 Use of RM190 marker linked with Bph3 gene to select the individual plant of DTR64 line carrying BPH resistant gene 3.2.5.2 Analysis and identifying the individual plants carrying BPH resistant BphZ gene Figure 3.22 Use of RM3735 linked with BphZ(t) to select the individual plants of KR8 carrying BPH resistant gene Figure 3.23 Use of RM3367 linked with BphZ(t) gene to select the individual plants of KR8 carrying BPH resistant gene 3.3 Screening the potential BPH resistant lines in the field 3.3.1 The potential rice lines Total 27 potential rice lines (BPH resistant lines) were selected for the Red River Delta in 2010 as shown in the Table 3.2 Table 3.2 The component yield traits of the potential rice lines in the Summer crops of 2010 (Density 50 plants /m2) Spikelet No Variety/line /plant KD18 đ/c DTR64 64R2-1-1 64R2-1 7,5 6,7 6,2 5,3 Grain /spikelet 119,0 139,6 167,2 188,0 15 Real Filled P1000 yield grain (g) (1000kg/ (%) ha) 86,8 92,9 84,1 84,7 19,2 22,8 24,8 23,8 6,09 6,00 6,18 6,17 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 64R2-2 64R4-3 64R1 64R8-1 64R8-2 64R1-3-5 64R1-3-6 64R1-4-2 64R1-4 -3 64R1-4-4 64R1-4-5 64R1-7- 64R1-7-2 64R1-7-3 64R1-7-4 64R1-4-1 64R1-4-3 64R4-4-1 64R4-4-3 64R4- 4-5 64R4-1-1 64R4-2-1 64R4-16-2 64R3-4-16 IR64 IS1.2 IS2.3 CV% 7,3 5,3 5,3 6,2 6,2 7,3 5,4 6,0 5,5 7,3 6,7 6,0 5,6 6,7 5,3 5,3 101,3 188,0 188,0 158,2 158,2 101,3 145,5 165,0 150,2 101,3 190,6 165,8 182,4 175,2 188,0 164,6 93,4 84,7 83,9 82,8 81,9 93,4 85,6 91,0 81,9 93,4 82,8 91,0 84,6 70,4 84,7 92,1 24,3 23,8 23,8 23,2 23,2 24,3 27,2 24,2 23,6 24,3 24,1 24,2 24,9 24,1 23,8 24,1 6,10 6,24 6,11 6,10 6,12 6,12 6,10 6,13 6,05 6,05 6,06 6,11 6,10 6,11 6,09 6,10 5,6 194,2 90,5 23,6 6,08 5,6 174,3 82,8 23,8 6,20 5,6 182,4 84,6 24,9 6,20 4,5 185,3 85,1 22,6 6,20 5,2 4,0 6,1 5,5 5,7 6,6 6,8 184,2 165,8 1756 187,3 102,5 121,3 120,3 83,6 84,1 75,4 87,1 96,4 73,2 72,2 22,6 24,2 24,1 22,6 22,3 19,5 18,5 6,14 6,10 6,17 6,06 6,10 5,61 5,60 5,5 2,1 1,5 0,9 8.90 LSD0,05 0,53 5.42 2.06 0.04 0.03 As the field performent of the potential rice lines were conducted in several the Northern province, there were elite lines were selected as the: DTR64, KR81(KR8) and KR8-2 3.3.2 Screening the agronomic traits of the elite rice lines 3.3.2.1 Screening the agronomic traits of the elite rice lines in the net house 16 Table 3.3 Evaluation of the BPH resistant/sensitive rice lines in 2011 Rank of BPH resistant pests No Variety/line Hanoi Nam Định Nghe An Đong thap Can tho KR8-1 3 3 KR8-2 3 3 DTR64 3 3 3 IS1.2 1 3 IS2.3 1 3 IR64 7 Ptb 33 1 3 TN1 9 9 Table 3.4 Evaluation of the BPH resistant/sensitive rice lines in 2012 Rank of BPH resistant pests No Variety/line Ha noi Nam Nghe Dong Dinh An Thap Can Tho KR8-1 3 3 KR8-2 3 3 3 IS1.2 1 3 IS2.3 1 3 IR 64 7 7 Ptb 33 1 3 TN1 9 9 During the field trials in the years of 2011 and 2012: rice lines namely KR8, KR8-2 and DTR64 showed the high BPH resistance from rank to 3, while IR64 showed severly BPH influenced as the rank from to 17 3.3.2.2 Evaluation of several agronomic traits in the field test - Results of field test in the Spring crops in 2011, 2012 at Hanoi and Ha Nam provinces Bảng 3.5 The purity of rice lines in the field test and their yield components in the Hanoi- Spring season crop of 2011, and 2012 (Density 50 plants/m2) Variety/lin No Purity Spikelet/plant Gain/spikelet e Filled grain rate (%) Theoretical P1000 (g) yield Real yield (100kg/ha) (100kg/ha) 2011 2012 2011 2012 2011 2012 2011 2012 2011 2012 2011 2012 2011 2012 KR8 1 4,9 4,5 182,0 152,0 91,2 89,3 29,5 29,1 11,21 8,89 7,01 6,48 KR8-2 1 4,6 4,3 180,0 150,0 90,2 89,5 29,7 29,1 10,80 8,40 6,91 6,27 DT64R 5 5,2 5,5 146,0 162,5 88,9 90,7 26,3 27,2 9,48 8,78 5,99 5,83 KD18(ĐC) 1 6,2 5,2 181,3 178,0 91,7 86,7 20,8 19,6 10,72 7,86 6,89 6,20 CV% - - 5,2 7,7 1.0 0.4 0.2 0.2 0.8 1.0 6.5 0.2 0.7 0.3 LSD0,05 - - 0,54 0,75 3.57 1.26 0.42 0.38 0.44 0.53 0.40 0.36 0.88 0.39 18 Table 3.6 The purity of rice lines in the field test and their yield components in the Hanam- Spring season crop of 2011, and 2012 (Density 50 plants/m2) Variety/lin Purity Spikelet/plant Gain/spikelet e No Filled grain rate (%) Theoretical P1000(g) yield Real yield (100kg/ha) (100kg/ha) 2011 2012 2011 2012 2011 2012 2011 2012 2011 2012 2011 2012 2011 2012 KR8 1 52 47 185,0 158,0 91,2 89,3 29,3 29,5 12,85 9,78 7,15 7,12 KR8-2 1 48 46 184,0 157,0 90,2 89,5 29,2 29,4 11,63 9,50 7,00 6,95 DT64R 5 55 57 149,0 162,5 88,9 90,7 25,3 26,6 9,22 9,41 6,05 6,09 KD18(ĐC) 1 62 55 185,3 178,0 91,7 86,7 20,6 19,8 10,86 8,40 6,88 6,58 CV% - - 0.9 1.9 0.7 0.5 0.5 0.1 0.7 1.1 0.6 3.1 0.4 0.6 LSD0,05 - - 0.1 0.19 2.33 1.73 0.93 0.19 0.35 0.58 1.05 0.14 0.5 0.8 In the Spring crop of 2011; 2012 in the area Ha Noi and Ha Nam, yield of the KR8 line showed higher than KD18 by 0,12 to 0,54 ton/ha; in which, KR8-2 line was higher yield than KD18 by 0,02 to 0,37 ton/ha However, DTR64 line was showing lower yield KD18 by 0,12 to 0,9 ton/ha In summary, KR8 line was selected in the Spring crop which was also shown BPH resistance, and higher yield than the popularly grown KD18 variety 19 Based on the results of experiments and VCU test, DTR64 line showed good phenotype but the real yield obtained the Spring season crop was lower than the yield of KD18, so that it was stopped sending for VCU test KR8 line revealed higher yield than KD18 was to send for VCU in the spring season crop of 2012 - The result of field tests in the Summer crops in 2011, 2012 at Hanoi and Hanam provinces Table 3.7 The purity of rice line/variety in the field test and their yield components in the Hanoi- Summer crop of 2011, and 2012 (Density 50 plants/m2) Purity Line/variety No Spikelet/plant 2011 2012 2011 2012 Gain/spikelet Filled grain rate (%) P1000 (g) Theoretical yield Real yield (100kg/ha) (100kg/ha) 2011 2012 2011 2012 2011 2012 2011 2012 2011 2012 KR8 1 4,8 4,9 168,2 158,2 82,8 82,8 23,2 23,2 7,76 7,45 6,20 5,94 KR8-2 1 5,0 5,0 160,2 156,2 81,9 81,9 22,9 22,9 7,51 7,33 6,14 5,82 DT64R 5 5,0 4,5 139,6 146,6 85,9 85,9 22,8 22,8 6,84 6,46 5,29 5,38 KD18(ĐC) 1 5,2 5,0 178,0 168,0 86,7 86,7 19,6 19,6 7,86 7,14 6,09 5,65 CV% - - 8.5 4.3 0.3 0.1 0.6 2.8 1.2 1.1 3.2 4.40 0.70 LSD0,05 - - 0.85 0.42 1.1 0.41 0.97 4.82 0.53 0.48 0.2 0.05 0.03 0.35 20 Table 3.8 The purity of rice line/variety in the field test and their yield components in the Hanam- Summer crop of 2011, and 2012 (Density 50 plants/m2) Line/variety Purity Spikelet/plant Gain/spikelet Filled grain rate P1000 (g) 2011 2012 2011 2012 2011 Real yield (100kg/ha) (%) No Theoretical yield (100kg/ha) 2012 2011 2012 2011 2012 2011 2012 2011 2012 KR8 1 5,2 4,9 168,2 152,2 82,8 82,8 23,2 23,2 8,40 7,16 6,30 6,08 KR8-2 1 5,0 5,0 160,2 150,2 81,9 81,9 22,9 22,9 7,51 7,04 6,20 5,96 DT64R 5 5,3 4,7 139,6 146,6 84,9 83,9 22,8 22,8 7,16 6,59 5,49 5,55 KD18(ĐC) 1 5,2 5,0 178,0 158,0 86,7 86,7 19,6 19,6 7,86 6,71 5,89 5,68 CV% - - 5.2 5.1 0.2 0.4 0.5 0.3 1.3 4.9 4.5 0.8 0.3 LSD0,05 - - 0.54 0.51 0.81 1.1 0.81 0.54 0.44 0.56 0.33 0.07 0.03 0.03 21 In the both Sumer crops of Hanoi and Hanam in 2011 and 2012, DTR64 line showe lower yield than the controlled KD18 variety, but 64R8-2 had higher yield than the yield of KD18, and 64R8-2 showed neglible higher than KD18 The KD8 may obtained the genetic trait of yield and BPH resistant ability from the parental lines IR64 x IS1.2; and it may be suitable to grow in the Summer-Spring season crops, and also possibly grown in the low land areas where has high density of BPH affected areas of Cuu Long delta 3.3.2.3 VCU test for KR8 in the Spring crop of 2012 Table 3.9 Growth characteristics of KR8 line in the Spring crop of 2012 Line/vari Vigor of ety seedling (point) KD18 KR8 CV% LSD0,05 5 - Length of seedling to flowering (point) Panicle exsertion (Point) Culm strength (point) Leaf senesc ence (đ) Shaterin g (point) Plant height (cm) 1 5 102 1 5 106 0,5 0.45 (Source: National Center for Plant and Fertilizer Testing) Days from seeding to maturit (days) 136 142 0.1 0.71 KR8 line is ranked as the short day of maturity Table 3.10 The purity of rice in the VCU test and their yield components of the KR8 in the Spring crop of 2012 Line/variety Purity (P) Spikelet/plant Grain/panicle Unfilled grain (%) KD18 5,2 178 13,3 KR8 4,5 152 10,7 CV% 4.4 2.3 0,5 LSD0,05 0.73 13.1 0,5 (Source: National Center for Plant and Fertilizer Testing) P1000 grain 19,6 29,1 0.3 0.24 KR8 line shown high level of purity in the field, the grain per panicle was lower than KD18 but showed negligible unfilled grain percentage and P1000 grain was higher than KD18 22 Table 3.11 Pests-diseases affection of KR8 line in the VCU test in the Spring crop in 2012 (Unit : point) Line/variety Rice Panicle Bacterial Sheath Brown Stem Leaf BPH blast blast blight blight spot borer rolling disease pest KD18 0-1 KR8 0-1 0-1 1-3 0-1 0-1 0-1 0-1 0-1 0-1 0-1 1-3 0-1 0-1 0-1 (Source: National Center for Plant and Fertilizer Testing) 0-1 In the national field test, because it was not occurring the severe pestdisease infestation in the spring crop in 2012 Hence, the affection of BPH between KR8 and KD12 showed BPH resistance was similarity Table 3.12 Real yield obtained from KR8 in the VCU test in the Spring crop of 2012 Areas field test Line/variety KD18 KR8 CV% Hung yen Haiduong 6,92 5,67 6,85 5,73 Haiphong Thaibinh Thanhhoa Nghe an Bacgiang Hatinh Avarage 6,50 - 5,40 5,51 6,45 6,88 6,22 6,86 6,70 7,27 5,73 6,23 6,20 6,48 LSD0,05 - 1 0.05 0.06 - 0,10 0.40 0.60 0.40 0.30 0.20 (Source: National Center for Plant and Fertilizer Testing ) Provinces in the Central Midlands area such as Thanh Hoa, Nghe An, Ha Tinh Bac Giang breed productivity KR8 larger KD18 than 0.43 to 0.57 t / The real yield obtained from KR8 showed higher than KD18 in the national test in the spring crop of 2012, the yield of KR8 was 6,47 ton/ha; while KD18 was 6,20 ton/ha as shown in table 3.12 Therefore, KR8 was selected in the short list as the potential lines and is requested to continue to screen on the field test in order to be regconized as national rice variety 23 CONCULUSION AND RECOMMENDATION The total 144 rice lines/varieties collected from the Red River and Cuulong deltas were evaluated for BPH resistance The severe infestation of BPH has trand to being increased, hence, most current rice varieties could be affected by BPH Evaluating the BPH resistance of the line/variety which carrying the gene BPH resistance (Bph3 and BphZ(t)), the results showed that IS1.2 line revealed higher level on BPH resistance with both BPH pests of Red River and Cuulong deltas and used as the donor plant On contrary that, IR64 was selected as the recipient plant Breeding and selection were already implemented, of which DTR64 and KR8 carryinging two BPH resistant genes were developed by backcrossing and selfing To select the resistant gence and combine with screening the BPH resistance and traditional breeding and selection Identifying the BPH resistance of KR8 following the standard method of IRRI by the BPH pests collected from Hanoi, Namdinh, Nghean, Dongthap and showed to points as the BPH resistance KR8 line was selected with high yield in the spring crop by 6,48 to 7,15 ton/ha, and in the Summer crop by 5,94 to 6,30 ton/ha, respectively According to the national test, the average yied obtained at the provinces in the North showed that, KR8 line had higher yield than KD18 was by 9,5% KR8 could have taken high yield in the intensive farming of the Spring crop by 7,12 to 7,15 ton/ha, and in the Summer crop by 6,08 to 6,30 ton/ha In the Spring crop of 2012, KR8 line was selected as the potential variety, BPH resistant variety by National Center for Plant and Fertilizer Testing RECOMMENDATION KR8 will be Continuously requested for VCU and DUS test KR8 would release a large scale for the province in the North Studying on farming process which is most suitable for KR8 variety 24 25 ... brown planthopper with MAS, mainly depends on the markers have linkage with the brown planthopper resistant gen is possible work Hence, we have concentrated on the topic entitled ? ?Study on rice breeding. .. on rice breeding for brown planthopper resistance using molecular markers ” Objectives of the dissertation Applying marker assisted selection method to develop inbred-elite rice varieties which... included the donor (carrying BPH resistant genes) and the donor without BPH resistant gene, but has some economic traits 2.2.3 Information collection of molecular markers Most of molecular markers