Your search keyword '"Suwarno, Willy Bayuardi"' showing total 50 results

1. 1H NMR analysis of metabolites from leaf tissue of resistant and susceptible oil palm breeding materials against Ganoderma boninense

Author

Rahmadi, Hernawan Yuli, Syukur, Muhamad, Widodo, Suwarno, Willy Bayuardi, Wening, Sri, Simamora, Arfan Nazhri, and Nugroho, Syarul

Published

2024

2. Water saving rice cultivation using sheet-pipe subsurface irrigation

Author

Arif, Chusnul, Saptomo, Satyanto Krido, Setiawan, Budi Indra, Taufik, Muh, Suwarno, Willy Bayuardi, Nugroho, Bayu Dwi Apri, and Mizoguchi, Masaru

Published

2024

3. A strategy to identify representative maize core collections based on kernel properties

Author

Risliawati, Andari, Suwarno, Willy Bayuardi, Lestari, Puji, Trikoesoemaningtyas, and Sobir

Published

2023

4. Systematic selection to adaptive doubled haploid rice lines under different environments of submergence screening methods

Author

Anshori, Muhammad Fuad, Purwoko, Bambang Sapta, Dewi, Iswari Saraswati, Suwarno, Willy Bayuardi, and Ardie, Sintho Wahyuning

Published

2023

5. An overview of image-based phenotyping as an adaptive 4.0 technology for studying plant abiotic stress: A bibliometric and literature review

Author

Anshori, Muhammad Fuad, Dirpan, Andi, Sitaresmi, Trias, Rossi, Riccardo, Farid, Muh, Hairmansis, Aris, Purwoko, Bambang, Suwarno, Willy Bayuardi, and Nugraha, Yudhistira

Published

2023

6. Advances in the development of rice varieties with better nutritional quality in Indonesia

Author

Sitaresmi, Trias, Hairmansis, Aris, Widyastuti, Yuni, Rachmawati, Susanto, Untung, Wibowo, Bayu Pramono, Widiastuti, Mira Landep, Rumanti, Indrastuti Apri, Suwarno, Willy Bayuardi, and Nugraha, Yudhistira

Published

2023

7. Exploring the varietal responses of maize to nitrogen fertilization and understanding growth dynamics

Author

Paschal Castus, Lubis Iskandar, and Suwarno Willy Bayuardi

Subjects

Microbiology, QR1-502, Physiology, QP1-981, Zoology, QL1-991

Abstract

Maize productivity, reliant on nitrogen availability, is crucial for the Indonesian economy. Previous research found organic fertilizers had minimal effects on the Local variety ‘Tambin’, widely used by smallscale farmers. This study explored varietal responses to nitrogen fertilization using a split-plot randomized complete design with four nitrogen rates (0, 46, 138, and 184 kg N ha−1) as main plots, and maize varieties (Hybrid ‘BISI-18’, Composite ‘Sukumaraga’, and Local ‘Tambin’) as sub-plots. Results showed significant effects of nitrogen rates and maize varieties on growth variables (plant height, stem diameter, and number of leaves). The ‘Tambin’ variety performed best at 138 kg N ha−1, with higher plant heights, while Hybrid ‘BISI-18’ and Composite ‘Sukumaraga’ showed the greatest increases in height and stem diameter at 46 kg N ha−1.

Published

2024

8. Genetic diversity of Lansium parasiticum (Osbeck) K. C. Sahni & Bennet accessions based on vegetative morphological characters and simple sequence repeat markers

Author

Efendi, Darda, Sari, Hevia Purnama, Suwarno, Willy Bayuardi, and Matra, Deden Derajat

Published

2022

9. A comprehensive multivariate approach for GxE interaction analysis in early maturing rice varieties.

Author

Anshori, Muhammad Fuad, Musa, Yunus, Farid, Muh, Jayadi, Muh, Padjung, Rusnadi, Kaimuddin, Kaimuddin, Huang, Yi Cheng, Casimero, Madonna, Bogayong, Iris, Suwarno, Willy Bayuardi, Sembiring, Hasil, Purwoko, Bambang Sapta, Nur, Amin, Wahyuni, Wahyuni, Wasonga, Daniel O., and Seleiman, Mahmoud F.

Abstract

The genotype evaluation process requires analysis of GxE interactions to ascertain the responsiveness of a genotype to various environments, including the development of early maturing rice. However, the concept of interaction is relatively specific to grain yield. In contrast, grain yield is highly polygenic, so assessment should be carried out with multivariate approaches. Therefore, multivariate assessment in evaluating GxE interactions should be developed, especially for early maturing rice genotypes. The study aimed to develop a comprehensive multivariate approach to improve the comprehensiveness and responsiveness of GxE interaction analysis. The study was conducted in Bone and Soppeng districts, South Sulawesi, Indonesia, in two seasons. The study used a randomized complete block design, where replications were nested across two seasons and locations. Two check varieties and five early maturing varieties were replicated three times in each environment. Based on this study, a new approach to GxE interaction analysis based on multiple regression index analysis, BLUP analysis, factor analysis, and path analysis was considered adequate, especially for evaluating early maturing rice. This approach combined days to harvest, biological yield, and grain yield in multiple linear regression with weighting based on the combination of all analyses. The effectiveness of the GxE interaction assessment was reflected by high coefficient of determination (R2) and gradient (b) values above 0.8 and 0.9, respectively. Inpari 13 (R2 = 0.9; b=1.05), Cakrabuana (R2 = 0.98; b=0.99), and Padjajaran (R2 = 0.95; b=1.07) also have good grain yield with days to harvesting consideration, namely 7.83 ton ha-1, 98.12 days; 7.37 ton ha-1, 95.52 days; and 7.29 ton ha-1, 97.23 days, respectively. Therefore, this index approach can be recommended in GxE interaction analysis to evaluate early maturing rice genotypes. Furthermore, Inpari 13, Cakrabuana, and Padjajaran are recommended as adaptive early maturing varieties. [ABSTRACT FROM AUTHOR]

Published

2024

10. Flowering Phenology and SiDREB2-based SNAP Marker-assisted Hybridity Confirmation for Artificial Hybridization of Indonesian Foxtail Millet (Setaria italica L. Beauv) Genotypes.

Author

Nugroho, Rizki Bagus, Chusnah, Uswatun, Suwarno, Willy Bayuardi, and Ardie, Sintho Wahyuning

Subjects

GENITALIA, FOXTAIL millet, PHENOLOGY, MILLETS, POLLEN

Abstract

Foxtail millet hybrid development encounters challenges due to its self-pollinating nature, small florets, and tool availability for confirming true hybrid. Our research aimed to assess flowering phenology and explore artificial hybridization employing SiDREB2 based-SNAP marker. The research consisted of three experiments. The first experiment focused on the panicle phenology of foxtail millet, while the second experiment focused on floret phenology and reproductive organs. The artificial hybridization successfulness was validated with SNAP markers based on the SiDREB2 gene in the third experiment. Observations on two genotypes (ICERI-5 and ICERI-6) revealed panicle initiation at 49-69 days after planting (DAP), with anthesis occurring 6 days after panicle emergence (DAPE). Florets exhibited the formation of reproductive organs at 3 DAPE, delineating distinct stages of pollen development leading up to anthesis. Our findings emphasized the significance of implementing male-sterile induction treatment at 4 DAPE to regulate pollen development for successful hybridization by 6 DAPE. The hybrid evaluation revealed varied germination rates and confirmed hybrid percentages across different crossing series, validated by SiDREB2-based SNAP marker. ICERI-5xBotok-4 exhibited high germination but a low confirmed hybrid percentage, while Botok-4xICERI-5 and Botok-10xICERI-6 showed the opposite trend. Reciprocal crossings showed unilateral incompatibility in confirmed hybrid percentage. [ABSTRACT FROM AUTHOR]

Published

2024

11. 1H NMR analysis of metabolites from leaf tissue of resistant and susceptible oil palm breeding materials against Ganoderma boninense.

Author

Rahmadi, Hernawan Yuli, Syukur, Muhamad, Widodo, Suwarno, Willy Bayuardi, Wening, Sri, Simamora, Arfan Nazhri, and Nugroho, Syarul

Subjects

NUCLEAR magnetic resonance, OIL palm, GENETIC drift, NUCLEAR magnetic resonance spectroscopy, VITAMIN C

Abstract

Introduction: Breeding for oil palm resistance against basal stem rot caused by Ganoderma boninense is challenging and time-consuming. Advanced oil palm gene pools are very limited, hence it is assumed that parental palms have experienced genetic drift and lost their resistance genes against Ganoderma. High-throughput selection criteria should be developed. Metabolomic analysis using 1H nuclear magnetic resonance (NMR) spectroscopy is easy, and the resulting metabolite can be used as a diagnostic tool for detecting disease in various host-pathogen combinations. Objectives: The objective of this study was to identify metabolite variations in Dura (D) and Pisifera (P) parental palms with different resistance levels against Ganoderma and moderately resistant DxP using 1H NMR analysis. Methods: Leaf tissues of seven different oil palm categories consisting of: resistant, moderate, and susceptible Dura (D); moderate and susceptible Pisifera (P); resistant Tenera/Pisifera (T/P) parental palms; and moderately resistant DxP variety progenies, were sampled and their metabolites were determined using NMR spectroscopy. Results: Twenty-nine types of metabolites were identified, and most of the metabolites fall in the monosaccharides, amino acids, and fatty acids compound classes. The PCA, PLS-DA, and heatmap multivariate analysis indicated two identified groups of resistance based on their metabolites. The first group consisted of resistant T/P, moderate P, resistant D, and moderately resistant DxP. In contrast, the second group consisted of susceptible P, moderate D, and susceptible D. Glycerol and ascorbic acid were detected as biomarker candidates by OPLS-DA to differentiate moderately resistant DxP from susceptible D and P. The pathway analysis suggested that glycine, serine, and threonine metabolism and taurine and hypotaurine metabolism were involved in the oil palm defense mechanism against Ganoderma. Conclusion: A metabolomic study with 1H NMR was able to describe the metabolite composition that could differentiate the characteristics of oil palm resistance against basal stem rot (BSR) caused by G. boninense. These metabolites revealed in this study have enormous potential to become support tools for breeding new oil palm varieties with higher resistance against BSR. [ABSTRACT FROM AUTHOR]

Published

2024

12. Rice breeding for multi-canopy system: Estimations of genetic parameters and response to selection.

Author

Sholehah, Ma’rifatus, Suwarno, Willy Bayuardi, Hapsari, Vany Putri, Sulistyo, Nisfia Nurfirdausy, Marwiyah, Siti, and Aswidinnoor, Hajrial

Abstract

One strategy currently being developed to increase rice (Oryza sativa L.) productivity is using a multi-canopy cropping system in rice cultivation. This method involves planting tall and short rice genotypes in the same hill. The objective of this experiment was to estimate the genetic parameters and response to selection in multi-canopy rice. Each experiment was arranged in an augmented randomized complete block design with five replications for the checks. In the first planting season, 200 F3 families from IPB196 and IPB197 populations were planted in monoculture and multi-canopy as the short genotypes. IPB187-F-40-1-1 was used in multi-canopy as the tall genotype. Selection of 25% based on grain weight per hill of short genotype in multi-canopy was performed, and 50 families were selected and their F4 seeds were planted in the second season along with the same tall genotype. The results indicated the genotype × cropping system was significant for grain weight per hill in the F3 and F4 generations. Grain weight per hill has a similar realized h² ns in the multi-canopy (0.58) with monoculture (0.54). Meanwhile, the response to selection in multi-canopy (3.60) was higher compared to monoculture (2.09), and therefore the selection of rice lines for a multi-canopy system should be conducted in the multicanopy environment. A selection percentage of 5% resulted in a higher response to selection. These findings may provide insight into the acceleration of breeding rice varieties for the multi-canopy system. [ABSTRACT FROM AUTHOR]

Published

2024

13. SiDREB2-based SNAP Marker-Assisted and Multi-Trait Selection in The Early Generation of Foxtail Millet (Setaria italica L. Beauv.).

Author

Sari Butarbutar, Lidya Kristina, Syawaluddin, Dwi Dana, Suwarno, Willy Bayuardi, and Ardie, Sintho Wahyuning

Subjects

FOXTAIL millet, SALINITY, DROUGHTS, GENOTYPES, GRAIN

Abstract

Setaria italica L. or foxtail millet is known for its nutritious grains and adaptability to unfavorable environmental conditions. High productivity, early heading, medium stature, and tolerance to drought- or salinity stress are among the breeding objectives for foxtail millet. The objective of this study was to select F3 families of foxtail millet from the cross of Botok-10xICERI-6 by weighted selection index and assisted by SiDREB2-based SNAP marker. Genotyping of 178 F3 families using the SiDREB2-based SNAP marker resulted in 29 A/A genotypes, 121 A/G genotypes, and 28 G/G genotypes. Further evaluation was conducted on 48 F3 families consisting of 27 A/A genotypes and 21 A/G genotypes in an augmented randomized complete block design together with their parental genotypes (Botok-10xICERI-6) and three check genotypes (Mauliru-2, NTB-1, and Toraja). Plant height and heading time had high broad-sense heritability, whereas grain weight per plant had a moderate broad-sense heritability. Ten potential F3 families were selected based on a weighted selection index with 20% intensity, comprised of seven A/G genotypes and three A/A genotypes with a weighted selection index ranging from 0.84 to 3.76. The F3 family with pedigree numbers B10I6-15-136, B10I6-15-161, and B10I6-15-70 with A/A genotypes are considered putative transgressive segregants and could be continued to the next generation for further breeding process. [ABSTRACT FROM AUTHOR]

Published

2024

14. Diversity and morphological characteristics of flowers in reticulatus, inodorus, and makuwa group melon (Cucumis melo).

Author

SAPUTRA, HELFI EKA, SYUKUR, MUHAMAD, SUWARNO, WILLY BAYUARDI, and SOBIR

Published

2024

15. Compatibility and Stability Analysis of Haploid Inducers under Different Source Germplasm and Seasons in Maize Using GGE Biplot.

Author

Dermail, Abil, Lübberstedt, Thomas, Suwarno, Willy Bayuardi, Chankaew, Sompong, Lertrat, Kamol, Ruanjaichon, Vinitchan, and Suriharn, Khundej

Subjects

SAVANNAS, INHIBITION (Chemistry), HAPLOIDY, GERMPLASM, RATE setting

Abstract

Multiple factors can affect the R1-nj purple kernel expression and seed set, reducing its efficiency in identifying haploids in maize. The complex interaction among the haploid inducer (HI), source germplasm (SG), and season (S) is inevitable in in vivo maize haploid induction but could be used through compatibility and stability tests. We tested five HI genotypes on 25 distinct source germplasm in two different seasons of tropical savanna in Thailand. The dry season was more suitable than the rainy season for haploid induction. We noticed varying degrees of R1-nj inhibition among the 25 tropical source germplasm, with some of them exhibiting significant issues with the R1-nj purple kernel expression. Therefore, using the R1-nj alone may not provide accurate ploidy identification in maize. Despite the intense R1-nj expression, haploid inducer BHI306 showed poor stability and compatibility with tropical source germplasm for pollination rate and seed set during the rainy season. The GGE biplot suggested KHI42 and KHI64 as the most compatible haploid inducers under their respective two different mega-source germplasm for the pollination rate and R1-nj seed set. These findings can guide breeders in selecting the most compatible and stable haploid inducers under varying conditions. [ABSTRACT FROM AUTHOR]

Published

2024

16. A new concept in assessing adaptability index for superior potential cropping intensity in early-maturing rice.

Author

Anshori, Muhammad Fuad, Musa, Yunus, Farid, Muh, Jayadi, Muh, Bahrun, Abd Haris, Yassi, Amir, Sulaiman, Andi Amran, Yi Cheng Huang, Casimero, Madonna, Llorca, Lizzida, Suwarno, Willy Bayuardi, Putra, Muh Mukhtadir, Sembiring, Hasil, Purwoko, Bambang Sapta, Wasonga, Daniel O., and Seleiman, Mahmoud F.

Subjects

CULTIVARS, RICE, CLIMATIC zones, BLOCK designs

Abstract

Implementing a cropping intensity program with rice cultivation four times a year (CI 400) can be achieved using early maturing varieties of rice. However, this development needs to pay attention to the adaptability of the varieties planted to ensure successful implementation. The adaptability approach is a combination of assessing stability and productivity potential. This concept has been developed and applied in several studies, including research on rice. However, this approach is considered less comprehensive because it is nonparametric and only focuses on one stability analysis. Therefore, a systematic integration of various stability analyses, including index methods, is needed to comprehensively assess adaptability, particularly for early-maturing rice in South Sulawesi. This region is characterized by a dynamic climate zone and is one of the top four highest rice producers in Indonesia. Meanwhile, this study aims to develop a comprehensive adaptability index and select the best early-maturing rice varieties, especially in South Sulawesi. The investigation was conducted in Bone, Soppeng, and Gowa over two seasons using a nested randomized complete block design, with organized replications in each environment (location-season). Additionally, there was a significant focus on the application of five early-maturing and two check rice varieties, with each factor repeated three times at each location, totaling 126 experimental units. The results showed that the adaptability index, by combining stability rank accumulation with yield min max standardization, was effective at assessing the yield potential and stability of early-maturing rice varieties in supporting CI 400. Inpari 13 had the best index value at 0.55, followed by Cakrabuana at 0.31; hence both were recommended as adaptive early-maturing rice varieties, especially in South Sulawesi. [ABSTRACT FROM AUTHOR]

Published

2024

17. Investigating genomic prediction strategies for grain carotenoid traits in a tropical/subtropical maize panel.

Author

LaPorte, Mary-Francis, Suwarno, Willy Bayuardi, Hannok, Pattama, Koide, Akiyoshi, Bradbury, Peter, Crossa, José, Palacios-Rojas, Natalia, and Diepenbrock, Christine Helen

Subjects

*CORN, *BIOFORTIFICATION, *VITAMIN deficiency, *HILBERT space, *ZEAXANTHIN, *FORECASTING, *PREDICTION models

Abstract

Vitamin A deficiency remains prevalent on a global scale, including in regions where maize constitutes a high percentage of human diets. One solution for alleviating this deficiency has been to increase grain concentrations of provitamin A carotenoids in maize (Zea mays ssp. mays L.)—an example of biofortification. The International Maize and Wheat Improvement Center (CIMMYT) developed a Carotenoid Association Mapping panel of 380 inbred lines adapted to tropical and subtropical environments that have varying grain concentrations of provitamin A and other health-beneficial carotenoids. Several major genes have been identified for these traits, 2 of which have particularly been leveraged in marker-assisted selection. This project assesses the predictive ability of several genomic prediction strategies for maize grain carotenoid traits within and between 4 environments in Mexico. Ridge Regression-Best Linear Unbiased Prediction, Elastic Net, and Reproducing Kernel Hilbert Spaces had high predictive abilities for all tested traits (β-carotene, β-cryptoxanthin, provitamin A, lutein, and zeaxanthin) and outperformed Least Absolute Shrinkage and Selection Operator. Furthermore, predictive abilities were higher when using genome-wide markers rather than only the markers proximal to 2 or 13 genes. These findings suggest that genomic prediction models using genome-wide markers (and assuming equal variance of marker effects) are worthwhile for these traits even though key genes have already been identified, especially if breeding for additional grain carotenoid traits alongside β-carotene. Predictive ability was maintained for all traits except lutein in between-environment prediction. The TASSEL (Trait Analysis by aSSociation, Evolution, and Linkage) Genomic Selection plugin performed as well as other more computationally intensive methods for within-environment prediction. The findings observed herein indicate the utility of genomic prediction methods for these traits and could inform their resource-efficient implementation in biofortification breeding programs. [ABSTRACT FROM AUTHOR]

Published

2024

18. Enhancing Maize Germplasm Selection for Genebanks: A Decision Support System Combining Shannon-Weaver Diversity Index and Machine Learning.

Author

Adnan, Adnan, Suryana, Yaya, Aziz, Abdul, Rochmadi, Taslim, Hakim, Arie Rakhman, Risliawati, Andari, Kasim, Arifuddin, Fahrodji, Fahrodji, Kamaruddin, Amrullah, Oktaviani, Wenny, Nuraini, Laela, Amalia, Anugerah Fitri, Ghazali, Nizam, Hadi, Adim, Ramdhani, Taufik Iqbal, Lestari, Puji, Suwarno, Willy Bayuardi, Trikosoemaningtyas, Trikosoemaningtyas, and Sobir, Sobir

Published

2024

19. Profile microsatellite mining of whole genome sequencing and transcriptomic assembly in dwarf and tall areca nut (Areca catechu) in Indonesia.

Author

ROMADHON, MUHAMMAD ROIYAN, SOBIR, SUWARNO, WILLY BAYUARDI, and MATRA, DEDEN DERAJAT

Published

2024

20. The Genetic Variability of Indonesian Local Foxtail Millet Accession Based on Agro-morphological Traits and Early Salinity Tolerance Evaluation Utilizing SiDREB2-based SNAP Marker.

Author

Ratnawati, Sri, Jannah, Rika Miftakhul, Dewi, Yuli Irvana, Rizqullah, Ramadaniarto, Suwarno, Willy Bayuardi, and Ardie, Sintho Wahyuning

Subjects

FOXTAIL millet, GENETIC variation, SALINITY, GERMPLASM, CROP improvement

Abstract

Foxtail millet (Setaria italica L. Beauv.) is a grain-producing crop with high nutritional benefits and adaptability to broad environmental conditions. Indonesian local foxtail millet accessions are valuable genetic resources for crop improvement of the species. This study aims to assess the biodiversity of Indonesian local foxtail millet accessions and estimate their salinity tolerance level utilizing the SiDREB2-based SNAP marker and early evaluation at the seedling stage. Our results showed that eight Indonesian local foxtail millet accessions, namely Toraja, Mauliru-2, Hambapraing, NTB-1, ICERI-5, ICERI-6, Botok-4, and Botok-10, had high variability based on agro-morphological traits. The Hambapraing and Mauliru-2 were the potential accessions with high yield estimates (2.33 ton.ha-1 and 1.93 ton.ha-1) and early harvest time (<110 DAT). ICERI-6 was indicated as a salinity-tolerant genotype based on the SiDREB2-based marker and early salinity evaluation at the seedling stage, while Toraja, Mauliru-2, NTB-1, and Botok-4 were categorized as sensitive genotypes. Germplasm variability and the estimated salinity tolerance level of Indonesian local foxtail millet accessions presented in this study serve as essential information in the foxtail millet breeding for high productivity, early harvest time, and salinity tolerant variety. [ABSTRACT FROM AUTHOR]

Published

2024

21. Characteristics and variability of melon genotypes under shade conditions in greenhouse.

Author

Huda, Amalia Nurul and Suwarno, Willy Bayuardi

Subjects

*MELON genetics, *GREENHOUSE plants, *GENOTYPES, *PETIOLES, *PLANT breeding

Abstract

The utilization of controlled greenhouses can be an alternative for melon (Cucumis melo L.) cultivation. Growing melon in greenhouses lowers the risk of pests and infections by diverse pathogens. Low solar irradiation during the rainy season and pollution in the greenhouse roof, may cause shade stress conditions for the plants inside. This study aimed to elucidate the plant and fruit characteristics of nine genotypes of melon grown under shade conditions in a greenhouse and the variability among them. The experiment was conducted in a greenhouse of Cikabayan Experimental Station, IPB University, Bogor, from November 2016 to January 2017. The genetic materials evaluated were nine melon genotypes from the Center for Tropical Fruit Studies at IPB University. A randomized complete block design with three replicates was followed. Shade intensity in the greenhouse was approximately 25%. The results showed that the genotype effect was significant for internode length, petiole length, plant height fruit, flesh thickness, fruit rind thickness, fruit weight, and total soluble solids. Genotype means for fruit weight were small in this experiment (< 300 g), whereas the total soluble solids were moderate to high (8.7-14.3 °Brix). Fruit diameter had a positive and significant correlation with leaf length, leaf width, and fruit length, whereasfruit weight had a positive and significant correlation with fruit diameter and fruit length. [ABSTRACT FROM AUTHOR]

Published

2023

22. Identification of Lines Inducing Male Sterility in Hybrid Maize.

Author

Farid, Muh, Azrai, Muhammad, Nur, Amin, Fadhli, Nur, Efendi, Roy, Salengke, Musa, Yunus, Baharuddin, Kuswinanti, Tutik, Thamrin, Sulaeha, Suwarno, Willy Bayuardi, Anshori, Muhammad Fuad, Andayani, Nining Nurini, Z., Bunyamin, Mirsam, Hishar, Priyanto, Slamet Bambang, Suriani, and Novianti, Fira

Subjects

MALE sterility in plants, POLLEN, GENETIC variation, GENOTYPES, CROSSBREEDING

Abstract

Efficiency and effectiveness in controlling crossbreeding are pivotal in yielding superior hybrid varieties with desired traits such as genetic purity and high productivity. Cytoplasmic Male Sterile (CMS) is a crucial component in hybrid variety assembly. This study aims to identify the genotypes that can induce male sterile lines based on genetic diversity and the level of pollen sterility in the prospective male sterile genotypes tested, consisting of seventeen genotypes. The research findings revealed that the genetic diversity among the seventeen observed male-sterile candidate genotypes tends to vary in quantitative traits. Among the quantitative traits, JHD14 exhibited indications of being a male sterility inducer compared to the other genotypes observed, demonstrating a value of 0.00 g in terms of pollen weight. This is further substantiated by the microscopic examination of JHD14 pollen grains, which displayed 100% sterility. [ABSTRACT FROM AUTHOR]

Published

2023

23. Agronomic performance, yield stability and selection of doubled haploid rice lines in advanced yield trials.

Author

Hadianto, Wira, Purwoko, Bambang Sapta, Dewi, Iswari Saraswati, Suwarno, Willy Bayuardi, Hidayat, Purnama, and Lubis, Iskandar

Subjects

AGRONOMY, HAPLOIDY, RANDOMIZED controlled trials, GENOTYPES, ANTHER

Abstract

Anther culture is a widely utilized technique in rice breeding because of its simplicity and effectiveness in rapidly obtaining pure lines in the form of doubled haploid plants. The selection of doubled haploid (DH) rice lines derived from anther culture in advanced yield trials is an important step for obtaining superior DH lines. We aimed to determine agronomic performance, including yield and yield stability in order to select lowland DH rice lines that are high yield and have good agronomic performance based on the selection index method. The research was conducted in Indonesia at three locations, i.e., Bogor (West Java), Indramayu (West Java) and Malang (East Java) from July to December 2022. The genotypes tested were 29 DH lines and three check varieties (Inpari-42 Agritan GSR, Inpari-18 Agritan and Bioni63 Ciherang Agritan) using a randomized complete block design (RCBD) with genotypes as a single factor and three replications. High heritability values are found in all agronomic characters, except the percentage of filled grain/panicle, the percentage of empty grain/panicle and productivity. The yield stability based on the Kang method showed that 15 lines were stable and had high productivity. Phenotypic correlation analysis showed that the number of productive tillers, days to flowering, days to harvesting, number of filled grains/panicle and percentage of filled grains all had positive values and significantly correlated with productivity. Phenotypic path analysis showed that the character of days to harvesting, number of filled grains/panicle, number of productive tillers and percentage of filled grains/panicle directly affected the productivity. Based on the weighted selection index, 12 DH lines were selected due to having a positive and higher index (8.54 to 0.28) than the Bioni63 Agritan and Inpari 18 check varieties. Among those lines, 9 DH lines were also stable based on the Kang Method. [ABSTRACT FROM AUTHOR]

Published

2023

24. Agronomic traits of rice hybrids (Oryza sativa L.) derived from new plant type and male sterile parents.

Author

Safitri, Desi Anugra, Suwarno, Willy Bayuardi, Darmanto, Ayub, and Aswidinnoor, Hajrial

Subjects

*HYBRID rice, *CYTOPLASM, *HETEROSIS, *PLANT growth, *SEED yield

Abstract

Hybrid rice is derived from a cross between the cytoplasmic male sterile (CMS) as the female parent and the restorer line as the male parent. This study aimed to evaluate the ability of several new plant type (NPT) rice lines as restorers of the CMS female parent and to elucidate the performance of the hybrid combinations. The research was carried out from December 2019 to November 2020 at Babakan Sawah Baru Experimental Station, Department of Agronomy and Horticulture, IPB University, Bogor, Indonesia. The hybrids were evaluated in the field together with the CMS female parent, male parents, and two check varieties, namely Ciherang and hybrid P05 Prima Seed. The experimental design used was a randomized complete block design (RCBD) with two replications. The results showed that two male parental lines, IPB189-F-10-3-2 (T6) and IPB189-14-1-1 (T9), had a hybrid seed yield per hill of 66.04 g and 75.27 g, respectively. These two parents have the restorer gene (R) which is substantiated by the good characteristics of the number of filled grains and total grain per panicle of the two hybrids. The potential hybrids CMS x IPB189-F-10-3-2 and CMS x IPB189- 14-1-1 had a positive heterosis for panicle length and 1,000 grain weight, and could be evaluated in future research. [ABSTRACT FROM AUTHOR]

Published

2023

25. Pemilihan Algoritma Machine Learning untuk Perangkat dengan Komputasi Terbatas pada Deteksi Kematangan Buah Melon Berjala.

Author

ZAKIAH, RIZQI ALIFAHASNI, WAHJUNI, SRI, and SUWARNO, WILLY BAYUARDI

Abstract

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Published

2023

26. Genetic variability of F2 foxtail millet population derived from ICERI-5 and Botok-10 cross.

Author

SINTIA, MIRA, SUWARNO, WILLY BAYUARDI, and ARDIE, SINTHO WAHYUNING

Published

2023

27. Combining ability of tropical × temperate maize inducers for haploid induction rate, R1-nj seed set, and agronomic traits.

Author

Abil Dermail, Lübberstedt, Thomas, Suwarno, Willy Bayuardi, Sompong Chankaew, Kamol Lertrat, Vinitchan Ruanjaichon, and Khundej Suriharn

Subjects

SAVANNAS, SEEDS, HETEROSIS, GENOTYPES, HEREDITY

Abstract

In vivo maternal haploid induction in isolation fields is proposed to bypass the workload and resource constraints existing in haploid induction nurseries. A better understanding of combining ability and gene action conditioning traits related to hybrid inducers is necessary to set the breeding strategy including to what extent parent-based hybrid prediction is feasible. This study aimed to evaluate the following in tropical savanna in the rainy and dry seasons for haploid induction rate (HIR), R1-nj seed set, and agronomic traits: 1) combining ability, line per se, and hybrid performance of three genetic pools; 2) genetic parameters, the modes of gene action, and heterosis; and 3) the relationships of inbred-general combining ability (GCA) and inbred-hybrid performance. Fiftysix diallel crosses derived from eight maize genotypes were evaluated in the rainy season of 2021 and the dry season of 2021/2022. Reciprocal cross effects including the maternal effect barely contributed to the genotypic variance for each trait observed. HIR, R1-nj seed set, flowering dates, and ear position were highly heritable and additive inherited, while ear length showed dominant inheritance. The equal importance of additive and dominance effects was found for yield-related traits. Temperate inducer BHI306 was the best general combiner for the HIR and R1-nj seed set, followed by two tropical inducers, KHI47 and KHI54. The ranges of heterosis were trait-dependent and slightly influenced by the environment, where hybrids in the rainy season consistently had higher heterosis than those in the dry season for each trait observed. Both hybrid groups derived from tropical × tropical and tropical × temperate inducers showed taller plants, larger ear size, and higher seed sets than the corresponding parents. However, their HIRs were still below the standard check of BHI306. The implications of genetic information, combining ability, and inbred-GCA and inbred-hybrid relationships on breeding strategies are discussed. [ABSTRACT FROM AUTHOR]

Published

2023

28. Variability of kernel morphological and flour physicochemical properties in tropical dent corn hybrids.

Author

HUMAM, BARIZA KHOIRUL, SUWARNO, WILLY BAYUARDI, AZRAI, MUHAMMAD, MAKKULAWU, ANDI TAKDIR, and EFENDI, ROY

Published

2023

29. Selection index and agronomic characters of doubled haploid rice lines from anther culture.

Author

HADIANTO, WIRA, PURWOKO, BAMBANG SAPTA, DEWI, ISWARI SARASWATI, SUWARNO, WILLY BAYUARDI, and HIDAYAT, PURNAMA

Published

2023

30. Genotype by Environment Interaction of IPB New Plant Type Rice Lines in Three Irrigated Lowland Locations.

Author

Syaifullah Rahim, Suwarno, Willy Bayuardi, and Hajrial Aswidinnoor

Subjects

*GENOTYPE-environment interaction, *RICE breeding, *RICE, *BLOCK designs

Abstract

One essential objective of rice breeding is to obtain high-yielding varieties. This study aimed to (1) determine the effect of genotype (G), environment (E), and genotype by environment (GxE) interaction on agronomic traits and yield of 12 lowland rice genotypes, (2) estimate variance components and repeatability (3) identify promising rice genotypes with good agronomic performance and high yield potential. The trials were conducted in three irrigated lowland locations from June to November 2020, using a randomized complete block design with three replications. The results showed that the GxE interaction effect was significant on days to flowering, days to harvest, plant height, number of tillers, and panicle length. The genotype's main effect was significant on yield. Four IPB lines (IPB189-F-13-1-1, IPB189-F-23-2-2, IPB193-F-17-2-3, and IPB193-F-30-2-1) had a higher average yield than Ciherang and Inpari 32 varieties. The IPB189-F-23-2-2 had a panicle length stability across the three test locations and a higher average yield than the checks. [ABSTRACT FROM AUTHOR]

Published

2023

31. Agronomic performance and selection of green super rice doubled haploid lines from anther culture.

Author

NURHIDAYAH, SITI, PURWOKO, BAMBANG SAPTA, DEWI, ISWARI SARASWATI, SUWARNO, WILLY BAYUARDI, and LUBIS, ISKANDAR

Published

2023

32. Genetic diversity, heritability, and accumulation patterns of Zn content in biofortified rice.

Author

ROHAENI, WAGE RATNA, SUWARNO, WILLY BAYUARDI, SUSANTO, UNTUNG, TRIKOSOEMANINGTYAS, GHULAMAHDI, MUNIF, and ASWIDINNOOR, HAJRIAL

Published

2023

33. Diversity and similarity of melon (Cucumis melo L.) groups and determination of distinguishing morphological characters.

Author

SAPUTRA, HELFI EKA, SYUKUR, MUHAMAD, SUWARNO, WILLY BAYUARDI, and SOBIR

Published

2022

34. Salinity tolerance selection of doubled-haploid rice lines based on selection index and factor analysis.

Author

Anshori, Muhammad Fuad, Purwoko, Bambang Sapta, Dewi, Iswari Saraswati, Suwarno, Willy Bayuardi, and Ardie, Sintho Wahyuning

Subjects

SALINITY, FACTOR analysis, HAPLOIDY, EXPERIMENTAL design, GENOTYPES

Abstract

The development of tolerant rice varieties using doubled-haploid technology is necessary to speed up the release of a variety tolerant to salinity stress. However, this requires a reliable screening method and selection index model for enhancing selection effectiveness. One approach is through the development of a selection index based on factor analysis under soil salinity screening in the greenhouse. The objective of this study was to develop a selection index model based on factor analysis and select tolerant doubled-haploid lines under high salinity conditions. The experimental design used was a split-plot design with salinity stress treatments as the main plot, i.e., normal (0 mM NaCl) and saline (25 mM NaCl ~ 5.6-5.8 dS/m) and 42 genotypes as the subplot. The genotypes consisted of 36 doubled-haploid lines, four commercial varieties, and two check varieties. The results indicated that a salinity selection index model involving yield and productive tiller traits could be used for selecting rice genotypes tolerant to salinity stress in soil artificial screening. This index which was developed through a combination of factor analysis, stress tolerance index (STI), and path analyses have identified 15 doubled haploid rice lines which were considered as good tolerant lines under salinity stress in soil artificial screening. [ABSTRACT FROM AUTHOR]

Published

2022

35. Potensi Hasil Benih Padi Hibrida pada Tiga Galur CMS dengan Sumber Sitoplasma yang Berbeda.

Author

Wibowo, Bayu Pramono, Purwoko, Bambang Sapta, Suwarno, Willy Bayuardi, and Rumanti, Indrastuti Apri

Abstract

Copyright of Indonesian Journal of Agronomy / Jurnal Agronomi Indonesia is the property of IPB University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

36. Evaluasi Galur-galur Padi Sawah Dihaploid Hasil Kultur Antera Menggunakan Seleksi Indeks.

Author

Gunarsih, Cucu, Purwoko, Bambang Sapta, Dewi, Iswari Saraswati, Suwarno, Willy Bayuardi, and Nafisah

Abstract

Copyright of Indonesian Journal of Agronomy / Jurnal Agronomi Indonesia is the property of IPB University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

37. Karakterisasi Fisikokimia Beras Galur-galur Padi Hitam Dihaploid.

Author

Firdaus, Muhammad Jauhar, Purwoko, Bambang Sapta, Dewi, Iswari Saraswati, and Suwarno, Willy Bayuardi

Abstract

Copyright of Indonesian Journal of Agronomy / Jurnal Agronomi Indonesia is the property of IPB University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

38. Genotype by environment analysis on multi‐canopy cropping system in rice: Effects of different types of flag leaves.

Author

Hidayah, Ummu Fitrothul, Suwarno, Willy Bayuardi, and Aswidinnoor, Hajrial

Abstract

Breeding rice (Oryza sativa L.) for the multi‐canopy (MC) cropping system is one of the novel ideas for increasing production. This system involves combining rice genotypes with different plant heights to form stratified panicles and flag leaves. This study aimed to elucidate the effects of different characteristics of flag leaves of tall plant genotypes on yield and agronomic traits in MC cultivation. The study was conducted from May 2020 to January 2021 at the IPB University Experimental Station at Babakan, Bogor, West Java, Indonesia. The genetic materials were seven rice inbred lines of F9 from an ongoing breeding program at IPB University, consisting of four tall genotypes with different flag leaf characters, namely IPB187‐F‐90‐1‐1 (ordinary, short flag leaf); IPB189‐F‐19‐2‐1 (V‐shaped, medium‐length flag leaf); IPB187‐F‐40‐1‐2 (V‐shape, narrow, half rolled, and long flag leaf); IPB189‐F‐8‐1‐1 (wide, long flag leaf), and three short genotypes, namely IPB193‐F‐19‐1‐3, IPB187‐F‐69‐2‐3, and IPB189‐F‐13‐1‐1. The experiment was carried out in four environmental conditions, namely: (a) monoculture and (b) MC, 2020 dry season, (c) monoculture, and (d) MC, 2020/2021 wet season, using a randomized complete block design with three replications. The results showed that the genotype × cropping system interaction significantly affected total yield (p <.05). The MC cropping system produced a higher average yield (6.65 t ha–1) than the monoculture (6.01 t ha–1) across the two seasons. The genotype with V‐shape and medium‐length flag leaf gave the highest yield in MC. This study substantiated the potential of breeding rice varieties suitable for the MC system. Core Ideas: Multicanopy (MC) system could increase the total rice yield in a limited area. This system involves planting tall and short rice genotypes in the same field. Total MC yield is affected by G × E interaction. The V‐shape and medium length flag leaf gave the highest yield in MC. [ABSTRACT FROM AUTHOR]

Published

2022

39. Selection of doubled haploid black rice lines in advanced yield trial based on multivariate analysis.

Author

KARIMA, ALIM WULANDARI, PUTRI, RATNA KARTIKA, PURWOKO, BAMBANG SAPTA, DEWI, ISWARI SARASWATI, SUWARNO, WILLY BAYUARDI, and KURNIAWATI, ANI

Published

2021

40. A New Approach to Select Doubled Haploid Rice Lines under Salinity Stress Using Indirect Selection Index.

Author

Anshori, Muhammad Fuad, Purwoko, Bambang Sapta, Dewi, Iswari Saraswati, Ardie, Sintho Wahyuning, and Suwarno, Willy Bayuardi

Subjects

SALINITY, HAPLOIDY, DISCRIMINANT analysis, FACTORIAL experiment designs, MULTIVARIATE analysis, BLOCK designs, RICE

Abstract

This study determined the indirect selection index of doubled haploid (DH) rice using a multivariate analysis approach to select lines adaptive to salinity stress, comprising three experiments. The first experiment involved the selection of good agronomic characters in a field experiment conducted at an experimental station in Bogor, Indonesia. The second experiment involved salinity tolerance screening through hydroponic cultures using 0 and 120 mmol/L NaCl, conducted at a greenhouse in Bogor. The third experiment involved the validation of the indirect adaptability selection index (IASI) through a field experiment in Sukra (saline area). Field experiments followed a randomized complete block design (RCBD), whereas an RCBD nested factorial design was used for the greenhouse experiment. The first and second experiments used 56 DH lines and four check varieties with three replications. In the second experiment, Pokkali and IR29 varieties were also added as tolerant and sensitive checks of salinity, respectively. The third experiment used 28 selected DH lines, Inpari 29 and one sensitive DH line. The good agronomic index (GAI) was 0.465 yield + 0.433 number of productive tillers + 0.31 number of filled grains. This generated 24 DH rice lines with good agronomic traits. The salinity tolerance index (SaTI) was developed through the average of standardized salinity tolerance score and salinity selection index based on discriminant analysis. This generated 34 DH rice lines with good salinity stress tolerance. The IASI (IASI = GAI – Sa TI) selected 28 DH rice lines adaptive to salinity stress and it was considered effective by Sukra validation. [ABSTRACT FROM AUTHOR]

Published

2021

41. Agronomic and yield selection of doubled haploid lines of rainfed lowland rice in advanced yield trials.

Author

AKBAR, MIFTAHUR RIZQI, PURWOKO, BAMBANG SAPTA, DEWI, ISWARI SARASWATI, SUWARNO, WILLY BAYUARDI, SUGIYANTA, and ANSHORI, MUHAMMAD FUAD

Published

2021

42. Experimental and numerical investigation of laboratory scale sheet pipe-typed automatic subsurface irrigation.

Author

Satyanto Krido Saptomo, Rudiyanto, Askari, Muhamad, Arif, Chusnul, Suwarno, Willy Bayuardi, Adlana, Rusianto, Setiawan, Budi Indra, Koremasa Tamura, and Hiroshi Matsuda

Subjects

WATER-pipes, SUBSURFACE drainage, MICROIRRIGATION, AUTOMATION, INTERNET of things, WATER table, SOIL moisture

Published

2021

43. Genotype by environment interaction on phenology and synchronous maturity of mungbean.

Author

Marwiyah, Siti, Suwarno, Willy Bayuardi, Wirnas, Desta, Trikoesoemaningtyas, and Sutjahjo, Surjono Hadi

Abstract

Genotype × environment interaction (G×E) of harvest period should be involved to assess the suitability of mungbean (Vigna radiata L. Wilczek) for monoculture or intercropping cultivations. This research was aimed to study the effect of G×E interactions on phenology and synchronous maturity, the change of genetic parameter estimates, and the stability of harvest period in mungbean. The study was conducted in Bogor, Indonesia, from December 2017 to October 2018 in four environments: wet season, monoculture (WS.M) and intercropping (WS.I); dry season, monoculture (DS.M) and intercropping (DS.I). Ten mungbean genotypes were evaluated in monoculture and intercropping with sorghum [Sorghum bicolor (L.) Moench] cultivar Numbu using a randomized complete block design with three replications. The phenological traits, namely days to flowering, days to the first harvest, days to 90% harvest, plant height, number of productive branches, seed weight per plant (SWP), and the synchronous maturity traits, namely harvest period, degree indetermination of plant height (DDh1), degree of indetermination of harvest period (DDd2), were observed. The results showed that the G×E interaction effect was highly significant (p <.01) for all phenological and synchronous maturity traits except DDd2. Phenotypic expression of all traits, except SWP and DDh1, were largely controlled by the genetic factor (h2bs > 59.83%). Kefa, Kawur, VR480B, Lom2, MLB, Vima 2, VR10, VR60 were stable (bi = 1), VR05 was sensitive (bi = 1.70), and No.129 was insensitive (bi = 0.66) and suitable for monoculture in the dry season. The GGE biplot showed Kefa as a stable genotype with the shortest harvest period. Mungbean selection for synchronous maturity can use harvest period trait in monoculture at dry season. Core Ideas: Mungbean is a source of protein that is accessible and inexpensive.Varieties with a short harvest period will support production sustainability.Environmental factors and cropping systems may affect phenotypic responses.Elucidating G×E for the harvest period on mungbean germplasm is essential. [ABSTRACT FROM AUTHOR]

Published

2021

44. Genotype by environment analysis on multi‐canopy cropping system towards vertical harvest space in rice.

Author

Widyastuti, Luh Putu Yuni, Suwarno, Willy Bayuardi, and Aswidinnoor, Hajrial

Abstract

The multi‐canopy cropping system is considered a novel idea for increasing rice yield, derived from the concept of vertical agriculture. This method utilizes short and tall genotypes planted in the same hill. The tall plants form a canopy, and therefore the vertical harvest space can be used. The objective of the study was to determine the potential of breeding programs to develop varieties for multi‐canopy cropping system in rice (Oryza sativa L.). The experiments were conducted at the IPB University Experimental Station at Babakan, Bogor, West Java, Indonesia, in four environments: (1) monoculture in the dry season 2018, (2) multi‐canopy in the dry season 2018, (3) monoculture in the wet season 2018/2019, (4) multi‐canopy in the wet season 2018/2019. Twenty‐two short rice genotypes and two check varieties were evaluated using a randomized complete block design in each environment. The genotype × canopy (G × C) interaction effect was significant (p <.05) for plant height, stem length, and number of tillers. Yield reductions of the short genotypes from the monoculture to the multi‐canopy system were varied (30.55–49.67%), eventhough the G × C was not significant. The average total yield of multi‐canopy (6.44 t ha−1) was higher (p <.05) than the monoculture (5.90 t ha−1), indicating that breeding for the development of suitable varieties for multi‐canopy system is possible. Results of this novel study, we hope, would inspire and stimulate new breeding objectives to develop varieties for multi‐canopy system and utilize vertical harvest space, as a new effort to increase rice production worldwide. [ABSTRACT FROM AUTHOR]

Published

2020

45. Male-sterile induction method in foxtail millet (Setaria italica).

Author

NUGROHO, RIZKI BAGUS, SUWARNO, WILLY BAYUARDI, KHUMAIDA, NURUL, and ARDIE, SINTHO WAHYUNING

Published

2020

46. Genetic diversity of panicle morphological traits of rice (Oryza sativa L.).

Author

Rahayu, Sherly, Dewi, Azri Kusuma, Suwarno, Willy Bayuardi, Ghulamahdi, Munif, and Aswidinnoor, Hajrial

Published

2020

47. A Model of Evapotranspirative Irrigation to Manage the Various Water Levels in the System of Rice Intensification (SRI) and Its Effect on Crop and Water Productivities.

Author

Arif, Chusnul, Saptomo, Satyanto Krido, Setiawan, Budi Indra, Taufik, Muh, Suwarno, Willy Bayuardi, and Mizoguchi, Masaru

Subjects

WATER levels, IRRIGATION water, IRRIGATION, STANDARD deviations, WATER efficiency, WATER use

Abstract

Evapotranspirative irrigation is a simple idea in a watering field based on the actual evapotranspiration rate, by operating an automatic floating valve in the inlet without electric power to manage water levels. The current study introduces a model of evapotranspirative irrigation and its application under different water levels. The objectives were (1) to evaluate the performances of evapotranspirative irrigation under various irrigation regimes, and to (2) to observe crop and water productivities of the system of rice intensification (SRI) as affected by different types of irrigation. The experiment was performed during one rice planting season, starting from July to November 2020, with three irrigation regimes, i.e., continuous flooded (CFI), moderate flooded (MFI) and water-saving irrigation (WSI). Good performance of the system was achieved; low root mean square error (RMSE) was indicated between observed water level and the set point in all irrigation regimes. Developing a better drainage system can improve the system. Among the regimes, the WSI regime was most effective in water use. It was able to increase water productivity by up to 14.5% while maintaining the crop yield. In addition, it has the highest water-use efficiency index. The index was 34% and 52% higher than those of the MFI and CFI regimes, respectively. Accordingly, the evapotranspirative irrigation was effective in controlling various water levels, and we recommend the system implemented at the field levels. [ABSTRACT FROM AUTHOR]

Published

2022

48. Simultaneous Selection of Sweet-Waxy Corn Ideotypes Appealing to Hybrid Seed Producers, Growers, and Consumers in Thailand.

Author

Dermail, Abil, Fuengtee, Aphakorn, Lertrat, Kamol, Suwarno, Willy Bayuardi, Lübberstedt, Thomas, and Suriharn, Khundej

Subjects

HYBRID corn, CORN, SEEDS, CORN quality, SEED yield, SHORT stature, CORN seeds

Abstract

Multi-trait selection helps breeders identify genotypes that appeal to divergent groups of preferences. In this study, we performed simultaneous selection of sweet-waxy corn hybrids on several traits covering the perspectives of consumers (taller kernel depth, better eating quality), growers (early maturity, shorter plant stature, and high ear yield), and seed producers (high flowering synchrony, acceptable seed yield, and good plant architecture). Three supersweet corn lines and 8 waxy corn lines were intercrossed to generate 48 F1 hybrids according to North Carolina Design II, and these genotypes were laid out in a randomized complete block design with 3 replications across 2 seasons between 2017 and 2018. A sensory blind test on sweetness, stickiness, tenderness, and overall liking was conducted to assess the eating quality of steamed corn samples. Two methods of simultaneous selection, namely unweighted selection index and overall rank-sum index (ORSI), were applied to rank crosses, following all targeted groups of preferences. Genetic parameters and genetic gain were estimated to evaluate the effectiveness of those selection methods. Both approaches had similar patterns of preferable realized gain on each given trait and could identify similar top five crosses with only slight order changes, implying that these methods were effective to rank genotypes according to given selection criteria. One of the tested crosses, 101L/TSC-10 × KV/mon, consistently had the highest unweighted selection index in the dry (7.84) and the rainy (7.15) seasons and the lowest ORSI (310), becoming a promising candidate as synergistic sweet-waxy corn hybrid appealing to consumers, growers, and seed producers. The expected ideotypes of sweet-waxy corn hybrid are discussed. [ABSTRACT FROM AUTHOR]

Published

2022

49. Performances of Sheet-Pipe Typed Subsurface Drainage on Land and Water Productivity of Paddy Fields in Indonesia.

Author

Arif, Chusnul, Setiawan, Budi Indra, Saptomo, Satyanto Krido, Matsuda, Hiroshi, Tamura, Koremasa, Inoue, Youichi, Hikmah, Zaqiah Mambaul, Nugroho, Nurkholish, Agustiani, Nurwulan, and Suwarno, Willy Bayuardi

Subjects

SUBSURFACE drainage, DRAINAGE, PADDY fields, AUTOMATIC meteorological stations, SOIL aeration, MICROIRRIGATION, WATER levels

Abstract

Subsurface drainage technology may offer a useful option in improving crop productivity by preventing water-logging in poor drainage paddy fields. The present study compared two paddy fields with and without sheet-pipe type subsurface drainage on land and water productivities in Indonesia. Sheet-pipe typed is perforated plastic sheets with a hole diameter of 2 mm and made from high-density polyethylene. It is commonly installed 30–50 cm below the soil surface and placed horizontally by a machine called a mole drainer, and then the sheets will automatically be a capillary pipe. Two fields were prepared, i.e., the sheet-pipe typed field (SP field) and the non-sheet-pipe typed field (NSP field) with three rice varieties (Situ Bagendit, Inpari 6 Jete, and Inpari 43 Agritan). In both fields, weather parameters and water depth were measured by the automatic weather stations, soil moisture sensors and water level sensors. During one season, the SP field drained approximately 45% more water compared to the NSP field. Thus, it caused increasing in soil aeration and producing a more significant grain yield, particularly for Inpari 43 Agritan. The SP field produced a 5.77 ton/ha grain yield, while the NSP field was 5.09 ton/ha. By producing more grain yield, the SP field was more effective in water use as represented by higher water productivity by 20%. The results indicated that the sheet-pipe type system developed better soil aeration that provides better soil conditions for rice. [ABSTRACT FROM AUTHOR]

Published

2021

50. Combining ability of tropical × temperate maize inducers for haploid induction rate, R1-nj seed set, and agronomic traits.

Author

Dermail A, Lübberstedt T, Suwarno WB, Chankaew S, Lertrat K, Ruanjaichon V, and Suriharn K

Abstract

In vivo maternal haploid induction in isolation fields is proposed to bypass the workload and resource constraints existing in haploid induction nurseries. A better understanding of combining ability and gene action conditioning traits related to hybrid inducers is necessary to set the breeding strategy including to what extent parent-based hybrid prediction is feasible. This study aimed to evaluate the following in tropical savanna in the rainy and dry seasons for haploid induction rate (HIR), R1-nj seed set, and agronomic traits: 1) combining ability, line per se, and hybrid performance of three genetic pools; 2) genetic parameters, the modes of gene action, and heterosis; and 3) the relationships of inbred-general combining ability (GCA) and inbred-hybrid performance. Fifty-six diallel crosses derived from eight maize genotypes were evaluated in the rainy season of 2021 and the dry season of 2021/2022. Reciprocal cross effects including the maternal effect barely contributed to the genotypic variance for each trait observed. HIR, R1-nj seed set, flowering dates, and ear position were highly heritable and additive inherited, while ear length showed dominant inheritance. The equal importance of additive and dominance effects was found for yield-related traits. Temperate inducer BHI306 was the best general combiner for the HIR and R1-nj seed set, followed by two tropical inducers, KHI47 and KHI54. The ranges of heterosis were trait-dependent and slightly influenced by the environment, where hybrids in the rainy season consistently had higher heterosis than those in the dry season for each trait observed. Both hybrid groups derived from tropical × tropical and tropical × temperate inducers showed taller plants, larger ear size, and higher seed sets than the corresponding parents. However, their HIRs were still below the standard check of BHI306. The implications of genetic information, combining ability, and inbred-GCA and inbred-hybrid relationships on breeding strategies are discussed., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Dermail, Lübberstedt, Suwarno, Chankaew, Lertrat, Ruanjaichon and Suriharn.)

Published

2023