Journal articles — Winter 2020

Anonymous.  2019. Findings from Department of Agronomy Yields New Data on Legume Research [Optimizing crop geometry and nutrient management for yield, water productivity and economics of kharif groundnut (Arachis hypogaea L.)].  NewsRX LLC. p. 71.

Anonymous.  2019. Findings from Tamil Nadu Agricultural University in the Area of Agriculture and Biology Described [Relative Performance of Groundnut (Arachis Hypogaea) Based Intercropping Systems Under Different Irrigation Levels].  NewsRX LLC. p. 76.

Anonymous.  2019. New Agronomy Data Have Been Reported by Investigators at Shandong Agricultural University (Effects of Water-soluble Fertilizer On Leaf Senescence and Nutrient Utilization of Peanut).  NewsRX LLC.

Anonymous.  2019. Research on Genomics Reported by Researchers at Crops Research Institute [Genome-wide identification of microsatellite markers from cultivated peanut (Arachis hypogaea L.)].  NewsRX LLC. p. 468.

Anonymous.  2019. Researchers from Landmark University Describe Findings in Agronomy [Zinc Sulphate and Boron-Based Foliar Fertilizer Effect on Growth, Yield, Minerals, and Heavy Metal Composition of Groundnut (Arachis hypogaea L) Grown on an Alfisol].  NewsRX LLC. p. 3284.

Aboyeji, C., O. Dunsin, A.O. Adekiya, C. Chinedum, K.O. Suleiman, F.O. Okunlola, et al. 2019. Zinc Sulphate and Boron-Based Foliar Fertilizer Effect on Growth, Yield, Minerals, and Heavy Metal Composition of Groundnut (Arachis hypogaea L) Grown on an Alfisol. International Journal of Agronomy: 1-7. doi:10.1155/2019/5347870.

Bakal, H. and H. Arioglu. 2019. The determination of fatty acids composition and oil quality factors of some peanut varieties having different market types at different harvesting times in main and double crop growing seasons in Mediterranean region. Turkish Journal of Field Crops 24 (2): 221-229. doi:10.17557/tjfc.655078.

Becerra-Tomás, N., I. Paz-Graniel, C.W.C. Kendall, H. Kahleova, D. Rahelic´, J.L. Sievenpiper, et al. 2019. Nut consumption and incidence of cardiovascular diseases and cardiovascular disease mortality: a meta-analysis of prospective cohort studies. Nutrition Reviews 77 (10): 691-709.

Branch, W.D. 2019. Registration of ‘Georgia-18RU’ Peanut. Journal of Plant Registrations 13 (3): 326-329. doi:10.3198/jpr2018.11.0073crc.

Cesari, A.B., N.S. Paulucci, M. López-Gómez, J. Hidalgo-Castellanos, C. Lluch Plá and M.S. Dardanelli. 2019. Performance of Bradyrhizobium and Bradyrhizobium–Azospirillum in Alleviating the Effects of Water-Restrictive Conditions During the Early Stages of Arachis hypogaea Growth. Journal of Plant Growth Regulation 38 (4): 1362-1374. doi:10.1007/s00344-019-09939-4.

Chaudhari, S., D. Khare, S.C. Patil, S. Sundravadana, M.T. Variath, H.K. Sudini,  Surendra S. Manohar, Ramesh S. Bhat, and Janila Pasupuleti.  2019. Genotype × Environment Studies on Resistance to Late Leaf Spot and Rust in Genomic Selection Training Population of Peanut (Arachis hypogaea L.). Frontiers in Plant Science 10: 1.  doi:10.3389/fpls.2019.01338

Chen, F., H. Ma, Y. Li, H. Wang, A. Samad, J. Zhou, L. Zhu, Y. Zhang, J. He, X. Fan, and T. Jin.. 2019. Screening of nanobody specific for peanut major allergen Ara h 3 by phage display. Journal of Agricultural and Food Chemistry 67 (40): 11219-11229.

Chen, L., Y.D. Wu, X.Y. Chong, Q.H. Xin, D.X. Wang and K. Bian. 2019. Seed-borne endophytic Bacillus velezensis LHSB1 mediate the biocontrol of peanut stem rot caused by Sclerotium rolfsii.  Journal of Applied Microbiology doi: 10.1111/jam.14508  [epub ahead of print]

Chi, B., Y. Zhang, D. Zhang, X. Zhang, J. Dai and H. Dong. 2019. Wide-strip intercropping of cotton and peanut combined with strip rotation increases crop productivity and economic returns. Field Crops Research 243 (1): N.PAG-N.PAG. doi:10.1016/j.fcr.2019.107617.

Chinthrajah, S., S. Cao, C. Liu, S.-C. Lyu, S.B. Sindher, A. Long, V. Sampath, D. Petroni, M. Londei, and K.C. Nadeau.  2019. Phase 2a randomized, placebo-controlled study of anti-IL-33 in peanut allergy.  JCI Insight 4 (22)  doi: 10.1172/jci.insight.131347.

Culbreath, A.K., T.B. Brenneman, R.C. Kemerait, Jr., K.L. Stevenson and D.J. Anco. 2019. Combinations of elemental sulfur with demethylation inhibitor fungicides for management of late leaf spot (Nothopassalora personata) of peanut.  Crop Science 125.

Du, L., X. Li, J. Chen, X. Jiang, Q. Ju, C. Qu,  and M. Qu. 2019. Density effect and economic threshold of purple nutsedge (Cyperus rotundus L.) in peanut (Arachis hypogaea L.).  International Journal of Plant Production 13 (4):  309-316.

El-Zemrany, H.M., G.A.A. Mekhemar and S.S.A. El Salam. 2019. EVvalution efficienct of liquid bradrhizobium and Aztobacter  chroococcum DSM 2286 as co-inoculation affected by salinity level of irrigation level of irrigation water on peanut in sandy soils of Egypt. روتوباكتر كروكووكم السائلة وتأثره   Menoufia Journal of Plant Production 4: 201 -217..

Frith, K. and C.H. Katelaris. 2019. Current perspectives on peanut allergy. Internal Medicine Journal 49 (12): 1480-1487. doi:10.1111/imj.14658.

Gangurde, S.S., H. Wang, S. Yaduru, M.K. Pandey, J.C. Fountain, Y. Chu, T. Isleib, C.C. Holbrook, A. Xavier, A.K. Culbreath, P. Ozias-Akins, R.K. Varshnev, and B. Guo.  2019.  Nested-association mapping (NAM)-based genetic dissection uncovers candidate genes for seed and pod weights in peanut (Arachis hypogaea). Plant Biotechnology Journal n/a. doi:10.1111/pbi.13311.  [epub ahead of print]

Gao, H., W. Meng, C. Zhang, W. van der Werf, Z. Zhang, S. Wan, and F. Zhang. 2019. Yield and nitrogen uptake of sole and intercropped maize and peanut in response to N fertilizer input. Food and Energy Security n/a: e187.  Pages 1-12.   doi:10.1002/fes3.187.

Haijin, Z., L. Zhao, N. Xiaofei, Z. Jichao and W. Lingyun. 2019. Comparison of Active Nitrogen Loss in Four Pathways on a Sloped Peanut Field with Red Soil in China under Conventional Fertilization Conditions. Sustainability 11 (22):   6219. doi:10.3390/su11226219.

Hilu, K.W., S.A. Friend, V. Vallanadu, A.M. Brown, L.R. Hollingsworth Iv and D.R. Bevan. 2019. Molecular evolution of genes encoding allergen proteins in the peanuts genus Arachis: Structural and functional implications. PLoS ONE 14 (11): 1-22. doi:10.1371/journal.pone.0222440.

Huang, B., F. Qi, Z. Sun, L. Miao, Z. Zhang, H. Liu, Y. Fang, W. Dong, F. Tang, Z. Sheng, and X. Zhang. 2019. Marker-assisted backcrossing to improve seed oleic acid content in four elite and popular peanut (Arachis hypogaea L.) cultivars with high oil content. Breeding Science 69 (2): 234-243.  Doi:10.1270/jsbbs.18107.

Ijaz, M., S. Perveen, A. Nawaz, S. Ul-Allah, A. Sattar, A. Sher, S. Ahmad, F. Nawaz, and I. Rasheed. 2019. Eco-friendly alternatives to synthetic fertilizers for maximizing peanut (Arachis hypogea L.) production under arid regions in Punjab, Pakistan.  Journal of Plant Nutrition 43 (11):  1-11.  DOI: 10.1080/01904167.2019.1702203.

Iqdiam, B.M., M.O. Abuagela, Z. Boz, S.M. Marshall, R. Goodrich-Schneider, C.A. Sims, M.R. Marshall, A. J. MacIntosh, and B. A.Welt.   2019. Effects of atmospheric pressure plasma jet treatment on aflatoxin level, physiochemical quality, and sensory attributes of peanuts. Journal of Food Processing and Preservation 44: e14305.   Pages 1-11.  doi:10.1111/jfpp.14305.

Jani, A.D., M.J. Mulvaney, K.S. Balkcom, C.W. Wood, D.L. Jordan, B.H. Wood, and P. Devoka. 2019. Peanut residues supply minimal plant-available nitrogen on a major soil series in the USA peanut basin.  Soil Use and Management.   DOI:10.1111/sum12563

Joshi, P., M.P. Jadhav, K. Shirasawa, A. Yadawad and R.S. Bhat. 2020. Foliar disease resistant and productive mutants from the introgression lines of peanut (Arachis hypogaea). Plant Breeding 139 (1): 148-155. doi:10.1111/pbr.12762.  [Feb 2020 issue]

Ju, Q., F. Ouyang, S. Gu, F. Qiao, Q. Yang, M. Qu, and F. Ge.  2019. Strip intercropping peanut with maize for peanut aphid biological control and yield enhancement. Agriculture, Ecosystems and Environment 286.  Pages 1-9.  doi:10.1016/j.agee.2019.106682.

Juliano, F.F., J.F.R. Alvarenga, R.M. Lamuela-Raventos, A.P. Massarioli, L.M. Lima, R.C. Santos, and S.M Alencar.  2019. Polyphenol analysis using high-resolution mass spectrometry allows differentiation of drought tolerant peanut genotypes. Journal of the Science of Food and Agriculture 100 (2): 721-731. doi:10.1002/jsfa.10075.

Lavkor, I. 2019. Molecular characterization of aflatoxin biosynthesis genes of Aspergillus flavus from peanuts production area.  Legume Research 42 (5):  609-614.  doi:10.18805/LR-508.

Lee, S., S. Kim, K. Park, J. Lee and J. Park. 2019. Clinical features and culprit food allergens of Korean adult food allergy patients: a cross-sectional single-institute study. Allergy, Asthma & Immunology Research 11 (5): 723-735.  doi: 10.4168/aair.2019.11.5.723

Morales-Romero, J., M. Bedolla-Barajas, J.A. Valdez-Soto, T.I. Bedolla-Pulido, M.A. Segura-Delgadillo and A. Bedolla-Pulido. 2019. Anaphylaxis associated with peanuts and nuts in late Mexican adolescents: a population based study. International Journal of Pediatrics 7 (5): 9443-9451. Doi:  10.22038/IJP2019.36479.3178

Moslavac, T., D. Šubaric´, J. Babic´, A. Šaric´, D.V. Čepo and A. Jozinovic´. 2019. Production and stabilization of peanut oil.  Hrana u Zdravlju i Bolesti / Food in Health and Disease 8 (1): 40-45.

Pi, X., Y. Wan, Y. Yang, R. Li, X. Wu, M. Xie, X. Lin, and G. Fu. 2019. Research progress in peanut allergens and their allergenicity reduction. Trends in Food Science & Technology 93: 212-220.

Shakya, A.K., R.S.J. Ingrole, G. Joshi, M.J. Uddin, S. Anvari, C.M. Davis, and G.S. Hill. 2019. Microneedles coated with peanut allergen enable desensitization of peanut sensitized mice. Journal of Controlled Release 314: 38-47. doi:10.1016/j.jconrel.2019.09.022.

Sharma, R.P., R.S. Singh, S.K. Singh and S.S. Sharma. 2019. Weathered basalt application for management of Vertisols: A traditional knowledge of groundnut (Arachis hypogaea) growers of Gujarat, India. Indian Journal of Traditional Knowledge 18 (4): 793-799.

Sicherer, S.H., R.A. Wood, T.T. Perry, S.M. Jones, D.Y.M. Leung, A.K. Henning, P. Dawson, A.W. Burks, R. Lindblad, and H.A. Sampson.  2019. Clinical factors associated with peanut allergy in a high‐risk infant cohort. Allergy 74 (11): 2199-2211. doi:10.1111/all.13920.

Singh, S.P., R.S. Yadav, S.L. Godara, A. Kumawat and Birbal. 2019. Herbicidal weed management in groundnut (Arachis hypogaea). Legume Research: An International Journal 42 (6): 829-837. doi:10.18805/A-4833.

Soller, L., E.M. Abrams and E.S. Chan. 2019. An update on the controversy around offering oral immunotherapy to peanut-allergic children outside of research. Annals of Allergy, Asthma, & Immunology 122 (6): 559-562.  doi: 10.1016/j.anai.2019.02.011

Song, H., Z. Guo, X. Hu, L. Qian, F. Miao, X. Zhang, and J. Chen. 2019. Evolutionary balance between LRR domain loss and young NBS-LRR genes production governs disease resistance in Arachis hypogaea cv. Tifrunner.  BM Genomics 20 (1):  1-12.

Thomas, T.S., R. Robertson and K. Boote. 2019. Evaluating risk of aflatoxin field contamination from climate change using new modules inside DSSAT.  IFPRI – Discussion Paper 01859 . International Food Policy Research Institute, Washington; USA.  59 pages.

Tu, J. and W. Wu. 2019. Critical functional properties of defatted peanut meal produced by aqueous extraction and conventional methods.  Journal of Food science and Technology-Mysore 56 (1):  4722-4731.

Ulutasdemir, T. and A. Cagri-Mehmetoglu. 2019. Effects of edible coating containing Williopsis saturnus var. saturnus on fungal growth and aflatoxin production by Aspergillus flavus in peanuts. Journal of Food Safety 39 (6): e12698-e12698.

Virk, G., C. Pilon, J.L. Snider and R.S. Tubbs. 2019.  Early- season vigor in peanuts is dependent on leaf area responses to temperature. Agronomy Journal n/a. doi:10.1002/agj2.20017.  [accepted article]

Wang, X.B., C.M. Hsu, J.C.B. Dubeux, C. Mackowiak, A. Blount, X.G. Han, and H. Liao.   2019. Effects of rhizoma peanut cultivars (Arachis glabrata Benth.) on the soil bacterial diversity and predicted function in nitrogen fixation. Ecology & Evolution 9 (22):   12676-12687. doi:10.1002/ece3.5735.

Yaping, Z., Z. Zullo, W. Lili, W. Chunxiao, L.U. Zeqi, J. Wei, et al. 2019. High-yield and High-efficiency Standardized Cultivation Technique for Wheat lnterplanting with Peanuts. Asian Agricultural Research 11: 70-80. doi:10.19601/j.cnki.issnl943-9903.2019.11.017.

Yasmine, E., M.A. Rahman, M.M. Hasan, M.A. Alain, M.S. Hague, M.R. Ismail, et al. 2019. Morphophysiological and yield attributes of groundnut varieties under different salinity stress conditions. p. 684-687.

Yin, D., C. Ji, Q. Song, W. Zhang, X. Zhang, K. Zhao, et al. 2019. Comparison of Arachis monticola with Diploid and Cultivated Tetraploid Genomes Reveals Asymmetric Subgenome Evolution and Improvement of Peanut.

Yuan, C., Q. Sun and Y. Kong. 2019. Genome-wide mining seed-specific candidate genes from peanut for promoter cloning. PLoS ONE 14: e0214025-e0214025.

Zambrano Ibarra, G., V. Fuentes Aparicio, S. Infante Herrero, M. Blanca and L. Zapatero Remon. 2019. Peanut allergy in Spanish children: comparative profile of peanut allergy versus tolerance. International Archives of Allergy and Immunology 178: 370-376.

Zhang, S.Z., X.H. Hu, H.R. Miao, Y. Chu, F.G. Cui, W.Q. Yang, et al. 2019. QTL identification for seed weight and size based on a high-density SLAF-seq genetic map in peanut (Arachis hypogaea L.). Bmc Plant Biology 19. doi:10.1186/s12870-019-2164-5.

Zhang.Y.,  S.Wang, Z. Zheng, L.Wang, C. Wang, Z. Lu, W. Jiang, H. Zang, and Y. Zheng. al. 2019. Chemical Fertilizer Reduction and High Yield Cultivation Technique for Peanut. Asian Agricultural Research 11 (10): 87-90. doi:10.19601/j.cnki.issn1943-9903.2019.10.019.

Zhang, T., Y. Shi, Y. Zhao, J. Wang, M. Wang, B. Niu, et al. 2019. Different thermal processing effects on peanut allergenicity. Journal of the Science of Food and Agriculture 99: 2321-2328.

Zheng, H., Z. Liu, X. Nie, J. Zuo and L. Wang. 2019. Comparison of Active Nitrogen Loss in Four Pathways on a Sloped Peanut Field with Red Soil in China under Conventional Fertilization Conditions.

Zhong, S. and H.-c. Zeng. 2019. Effect of peanut (Arachis hypogaea L.)/cowpea (Vigna unquiculata L.) intercropping combined with organic mature application on soil microfauna. Geoderma 354. doi:10.1016/j.geoderma.2019.07.021.

Zhong, Y., J. Chew, M. Tan and J. Soh. 2019. Efficacy and safety of oral immunotherapy for peanut allergy: a pilot study in Singaporean children. Asia Pacific Allergy 9: e1-e1.

Zhou, J., Q. Qi, C. Wang, Y. Qian, G. Liu, Y. Wang, et al. 2019. Surface plasmon resonance (SPR) biosensors for food allergen detection in food matrices. Biosensors & Bioelectronics 142: 111449-111449.

Zhou, W., W.D. Branch, L. Gilliam and J.A. Marshall. 2019. Phytosterol composition of Arachis hypogaea seeds from different maturity classes. Molecules 24: 106-106.

Zou, S., Y.-C. Tseng, A. Zare, D.L. Rowland, B.L. Tillman and S.-C. Yoon. 2019. Peanut maturity classification using hyperspectral imagery. Biosystems Engineering 188: 165-177. doi:10.1016/j.biosystemseng.2019.10.019.

刘畅, 黄文茂 and 韩丽珍. 2019. PGPR复合菌系对花生生长及根际土壤微生物的影响. Effect of PGPR Compound Flora on Peanut Seedling Growth and Rhizosphere Soil Microorganism. 32: 2367-2372. doi:10.16213/j.cnki.scjas.2019.10.018.

赵雪梅, 何礼新, 李云春, 韦鸿雁, 方顺, 陆思思, et al. 2019. 含硒肥料对花生富集硒能力的影响. Effect of Selenium-Containing Fertilizer on Ability of Selenium Accumulation in Peanut. 32: 2350-2354. doi:10.16213/j.cnki.scjas.2019.10.015.