Momento Malum Today Episode 76 Mushrooms (Text to Speech Video)
Donate Link: buymeacoffee.com/?via=bajes94L
Pepe, M., Hesami, M., De, K. A., Perreault, M. L., Hsiang, T., Maxwell, A., & Jones, P. (2023). A journey with psychedelic mushrooms : From historical relevance to biology , cultivation , medicinal uses , biotechnology , and beyond. Biotechnology Advances, 69(September), 108247. https://doi.org/10.1016/j.biotechadv.2023.108247
Xu, J., Kerrigan, R. W., Callac, P., Horgen, P. A., & Anderson, J. B. (1997). Genetic structure of natural populations of Agaricus bisporus, the commercial button mushroom. Journal of Heredity, 88(6), 482–488. https://doi.org/10.1093/oxfordjournals.jhered.a023141
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Plant Culture 02 Iranian Fruit Genepool
Gharaghani, A., Solhjoo, S., & Oraguzie, N. (2016). A review of genetic resources of pome fruits in Iran. Genetic Resources and Crop Evolution, 63(1), 151–172. https://doi.org/10.1007/s10722-015-0334-3
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Old World Agriculture Pea Landraces
Ntatsi, G., Karkanis, A., Yfantopoulos, D., Pappa, V., Konosonoka, I. H., Travlos, I., … Savvas, D. (2019). Evaluation of the field performance, nitrogen fixation efficiency and competitive ability of pea landraces grown under organic and conventional farming systems. Archives of Agronomy and Soil Science, 65(3), 294–307. https://doi.org/10.1080/03650340.2018.1501155
Rubiales, D., Fondevilla, S., & Fernández-Aparicio, M. (2021). Development of pea breeding lines with resistance to orobanche crenata derived from pea landraces and wild Pisum spp. Agronomy, 11(1). https://doi.org/10.3390/agronomy11010036
Sun, S., Fu, H., Wang, Z., Duan, C., Zong, X., & Zhu, Z. (2016). Discovery of a novel er1 allele conferring powdery mildew resistance in Chinese Pea (Pisum sativum L.) landraces. PLoS ONE, 11(1), 1–17. https://doi.org/10.1371/journal.pone.0147624
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Momento Malum Today Episode 75 Mosses
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https://www.youtube.com/watch?v=7v_fQKT7MyI
Mike Gladstone
BENEK, A., CANLI, K., & ALTUNER, E. M. (2022). Traditional Medicinal Uses of Mosses. Anatolian Bryology, 8(1), 57–65. https://doi.org/10.26672/anatolianbryology.1061190
Kitir, N., Yildirim, E., Şahin, Ü., Turan, M., Ekinci, M., Ors, S., … Ünlü, H. (2018). Peat Use in Horticulture. Peat, (September). https://doi.org/10.5772/intechopen.79171
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Plant Culture 02 Protoplast Fusion of Fruit Trees and Woody Ornamentals
Ochatt, S. J. (1995). Protoplast technology for the breeding of top-fruit trees (Prunus, Pyrus, Malus, Rubus) and woody ornamentals. Euphytica: International Journal of Plant Breeding, 85(1), 287–294. https://doi.org/10.1007/BF00023958
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Old World Agriculture Ducks and Geese in Ancient Rome and Britain
Albarella, U. (2005). Alternate fortunes? The role of domestic ducks and geese from Roman to Medieval times in Britain. Feathers, Grit and Symbolism: Birds and Humans in the Ancient Old and New Worlds. Proceedings of the 5th Meeting of the ICAZ Bird Working Group in Munich, Germany, 26-30 July, 2004, 3, 249–258.
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Momento Malum Today Episode 74 Aloe and GERD
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Yarnell, E., & Abascal, K. (2010). Herbs for gastroesophageal reflux disease. Alternative and Complementary Therapies, 16(6), 344–346. https://doi.org/10.1089/act.2010.16611
https://blogs.biomedcentral.com/bmcseriesblog/2015/02/26/history-aloe-vera-arabian-desert-cream-use-hands/
https://www.gardeningknowhow.com/houseplants/aloe-vera/aloe-vera-plant-care.htm
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Plant Culture 02: Hungarian Apple Diversity
Király, I., Ladányi, M., Nagyistván, O., & Tóth, M. (2015). Assessment of diversity in a Hungarian apple gene bank using morphological markers. Organic Agriculture, 5(2), 143–151. https://doi.org/10.1007/s13165-015-0100-z
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Old World Agriculture Umeboshi Domestication
Gregory, R. L. (2014). Oxford Reference The Oxford Companion to the Mind ( 2 ed .).
Huang, X., Ni, Z., Shi, T., Tao, R., Yang, Q., Luo, C., … Gao, Z. (2022). Novel insights into the dissemination route of Japanese apricot (Prunus mume Sieb. et Zucc.) based on genomics. Plant Journal, 110(4), 1182–1197. https://doi.org/10.1111/tpj.15731
Numaguchi, K., Akagi, T., Kitamura, Y., Ishikawa, R., & Ishii, T. (2020). Interspecific introgression and natural selection in the evolution of Japanese apricot (Prunus mume). Plant Journal, 104(6), 1551–1567. https://doi.org/10.1111/tpj.15020
https://japan-product.com/ads/history-of-umeboshi-pickled-ume/
https://thekonnichiwa.com/blogs/articles/umeboshi
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Momento Malum Today Episode 73 Figs
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Lansky, E. P., Paavilainen, H. M., Pawlus, A. D., & Newman, R. A. (2008). Ficus spp. (fig): Ethnobotany and potential as anticancer and anti-inflammatory agents. Journal of Ethnopharmacology, 119(2), 195–213. https://doi.org/10.1016/j.jep.2008.06.025
Mars, M. (2003). Fig (Ficus carica L.) genetic resources and breeding. Acta Horticulturae, 605, 19–27. https://doi.org/10.17660/ActaHortic.2003.605.1
https://patents.google.com/patent/WO2002079219A2/en
https://www.thespruce.com/grow-weeping-fig-indoors-1902440
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Old World Agriculture Middle Age Spice Trade and the Rise of the Chilie Pepper
Wright, clifford a. (2007). The Medieval Spice Trade and the Diffusion of the Chile. Gastronomica, 7(2), 35–43. https://doi.org/10.1525/gfc.2007.7.2.35
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Momento Malum Today Episode 72 Rosemary Russet, Rosemary Herbalism and Rugosa Roses
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Howard, N. P., Van De Weg, E., & Luby, J. J. (2022). A new method to reconstruct the direction of parent-offspring duo relationships using SNP array data and its demonstration on ancient and modern cultivars in the outcrossing species Malus × domestica. Horticulture Research, 9(February). https://doi.org/10.1093/hr/uhab069
Khan, A., & Thomas, C. (2013). Wild apple species as a source of fire blight resistance for sustainable productivity of apple orchards, 21(4), 3–6. Retrieved from http://nyshs.org/wp-content/uploads/2018/04/Khan-Pages-13-20-from-NYFQ-Winter-Book-2017.pdf
Luby, J. J., Alspach, P. A., Bus, V. G. M., & Oraguzie, N. C. (2002). Field resistance to fire blight in a diverse apple (Malus sp.) germplasm collection. Journal of the American Society for Horticultural Science, 127(2), 245–253. https://doi.org/10.21273/jashs.127.2.245
Muranty, H., Denancé, C., Feugey, L., Crépin, J. L., Barbier, Y., Tartarini, S., … Durel, C. E. (2020). Using whole-genome SNP data to reconstruct a large multi-generation pedigree in apple germplasm. BMC Plant Biology, 20(1), 1–18. https://doi.org/10.1186/s12870-019-2171-6
Naghibi, F., Mosaddegh, M., Motamed, S. M., & Ghorbani, A. (2005). Labiatae family in folk medicine in Iran: From ethnobotany to pharmacology. Iranian Journal of Pharmaceutical Research, 4(2), 63–79. https://doi.org/10.22037/IJPR.2010.619
Noiton, D. A. M., & Alspach, P. A. (1996). Founding clones, inbreeding, coancestry, and status number of modern apple cultivars. Journal of the American Society for Horticultural Science, 121(5), 773–782. https://doi.org/10.21273/jashs.121.5.773
Ojeda-Sana, A. M., van Baren, C. M., Elechosa, M. A., Juárez, M. A., & Moreno, S. (2013). New insights into antibacterial and antioxidant activities of rosemary essential oils and their main components. Food Control, 31(1), 189–195. https://doi.org/10.1016/j.foodcont.2012.09.022
https://montezumaorchard.org/product/rosemary-russet-4/
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Old World Agriculture Umeboshi Domestication
Donate Link: buymeacoffee.com/?via=bajes94L
Gregory, R. L. (2014). Oxford Reference The Oxford Companion to the Mind ( 2 ed .).
Huang, X., Ni, Z., Shi, T., Tao, R., Yang, Q., Luo, C., … Gao, Z. (2022). Novel insights into the dissemination route of Japanese apricot (Prunus mume Sieb. et Zucc.) based on genomics. Plant Journal, 110(4), 1182–1197. https://doi.org/10.1111/tpj.15731
Numaguchi, K., Akagi, T., Kitamura, Y., Ishikawa, R., & Ishii, T. (2020). Interspecific introgression and natural selection in the evolution of Japanese apricot (Prunus mume). Plant Journal, 104(6), 1551–1567. https://doi.org/10.1111/tpj.15020
https://japan-product.com/ads/history-of-umeboshi-pickled-ume/
https://thekonnichiwa.com/blogs/articles/umeboshi
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Plant Culture 02: Radish Domestication
Wang, N., Kitamoto, N., Ohsawa, R., & Fujimura, T. (2008). Genetic diversity of radish (Raphanus sativus) germplasms and relationships among worldwide accessions analyzed with AFLP markers. Breeding Science, 58(2), 107–112. https://doi.org/10.1270/jsbbs.58.107
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Momento Malum Today Episode 71 Myths and Legends
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Holloway, P., & Alexander, G. (1989). Ethnobotany of the Fort Yukon Region, Alaska.
Král, M. (2008). Dahlia- Myths Part 3, 117(9), 703–707.
Morgan, J. (2013). The New Book of Apples. Ebury Digital.
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Plant Culture 02 Transgene intergression in Cultivated Plants
Messeguer, J. (2003). Gene flow assessment in transgenic plants. Plant Cell, Tissue and Organ Culture, 73(3), 201–212. https://doi.org/10.1023/A:1023007606621
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Old World Agriculture Rabbit Domestication
Irving-Pease, E. K., Frantz, L. A. F., Sykes, N., Callou, C., & Larson, G. (2018). Rabbits and the Specious Origins of Domestication. Trends in Ecology and Evolution, 33(3), 149–152. https://doi.org/10.1016/j.tree.2017.12.009
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Momento Malum Today Episode 70 GWAS, Plantago and Apple Breeding
Abd Razik, B. M., Ali Hasan, H., & Khalil Murtadha, M. (2012). The Study of Antibacterial Activity of Plantago Major and Ceratonia Siliqua. The Iraqi Postgraduate Medical Journal, 11(1), 130–135. Retrieved from http://www.iasj.net/iasj?func=fulltext&aId=30208
McClure, K. A., Gardner, K. M., Douglas, G. M., Song, J., Forney, C. F., DeLong, J., … Myles, S. (2018). A Genome‐Wide Association Study of Apple Quality and Scab Resistance. The Plant Genome, 11(1), 170075. https://doi.org/10.3835/plantgenome2017.08.0075
Yoosefzadeh-Najafabad, M., Torab, S., Tulpan, D., Rajcan, I., & Eskandar, M. (2023). Application of SVR-Mediated GWAS for Identification of Quality Traits. Plants, 12(2659), 20.
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Herbal Bonus 26 Carob Domestication and Ethnobotany
Alqudah, A., Qnais, E. Y., Wedyan, M. A., Oqal, M., Alqudah, M., AbuDalo, R., & AL-Hashimi, N. (2022). Ceratonia siliqua leaves ethanol extracts exert anti-nociceptive and anti-inflammatory effects. Heliyon, 8(8), e10400. https://doi.org/10.1016/j.heliyon.2022.e10400
Hsouna, A. Ben, Trigui, M., Mansour, R. Ben, Jarraya, R. M., Damak, M., & Jaoua, S. (2011). Chemical composition, cytotoxicity effect and antimicrobial activity of Ceratonia siliqua essential oil with preservative effects against Listeria inoculated in minced beef meat. International Journal of Food Microbiology, 148(1), 66–72. https://doi.org/10.1016/j.ijfoodmicro.2011.04.028
Viruel, J., Le Galliot, N., Pironon, S., Nieto Feliner, G., Suc, J. P., Lakhal-Mirleau, F., … Baumel, A. (2020). A strong east–west Mediterranean divergence supports a new phylogeographic history of the carob tree (Ceratonia siliqua, Leguminosae) and multiple domestications from native populations. Journal of Biogeography, 47(2), 460–471. https://doi.org/10.1111/jbi.13726
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Plant Culture 02 Soybean Resistance
Sedivy, E. J., Wu, F., & Hanzawa, Y. (2017). Soybean domestication: the origin, genetic architecture and molecular bases. New Phytologist, 214(2), 539–553. https://doi.org/10.1111/nph.14418
Singh, R. J., Nelson, R. L., & Chung, G. (2018). Practical Manual on Plant Cytogenetics Expected by 2016 C HAPTER 2 Soybean ( Glycine max ( L .) Merr .) (pp. 14–44). CRC Press. Retrieved from https://www.researchgate.net/publication/301611489_Practical_Manual_on_Plant_Cytogenetics_Expected_by_2016
Cober, E. R., & Morrison, M. J. (2010). Regulation of seed yield and agronomic characters by photoperiod sensitivity and growth habit genes in soybean. Theoretical and Applied Genetics, 120(5), 1005–1012. https://doi.org/10.1007/s00122-009-1228-6
Kim, M. Y., Van, K., Kang, Y. J., Kim, K. H., & Lee, S. H. (2011). Tracing soybean domestication history: From nucleotide to genome. Breeding Science, 61(5), 445–452. https://doi.org/10.1270/jsbbs.61.445
Xue, A. G., Rioux, S., Morrison, M. J., Chen, Y., Zhang, J., Yan, W., & Glen, M. (2010). Resistance and Tolerance to Sclerotinia Stem Rot in Selected Short-Season Soybean Cultivars in Canada, 2008.
Zhang, J. X., & Xue, A. G. (2014). Evaluation of soybean cultivars for resistance to Phomopsis longicolla and Sclerotinia sclerotiorum using excised leaves. Canadian Journal of Plant Science, 94(5), 955–961. https://doi.org/10.4141/CJPS2013-082
USDA. (2022b). SoyBase - Soybean Parentage Information. Retrieved July 21, 2022, from https://soybase.org/uniformtrial/index.php?page=lines&filter=Jack
Disease Management. (G. S. Saharan & N. Mehta, Eds.) (Vol. 7). New Delhi: Springer Science. Retrieved from https://www.researchgate.net/publication/269107473_What_is_governance/link/548173090cf22525dcb61443/download%0Ahttp://www.econ.upf.edu/~reynal/Civil wars_12December2010.pdf%0Ahttps://think-asia.org/handle/11540/8282%0Ahttps://www.jstor.org/stable/41857625
Gizlice, Z., Carter, T. E., & Burton, J. W. (1994). Genetic base for North American public soybean cultivars released between 1947 and 1988. Crop Science, 34(5), 1143–1151. https://doi.org/10.2135/cropsci1994.0011183x003400050001x
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Old World Botany Nordic Apple Genetics
Garkava-Gustavsson, L., Mujaju, C., Sehic, J., Zborowska, A., Backes, G. M., Hietaranta, T., & Antonius, K. (2013). Genetic diversity in Swedish and Finnish heirloom apple cultivars revealed with SSR markers. Scientia Horticulturae, 162, 43–48. https://doi.org/10.1016/j.scienta.2013.07.040
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Momento Malum Today Episode 69 The Preservation Of The Past
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Buenz, E. J., Schnepple, D. J., Bauer, B. A., Elkin, P. L., Riddle, J. M., & Motley, T. J. (2004). Techniques: Bioprospecting historical herbal texts by hunting for new leads in old tomes. Trends in Pharmacological Sciences, 25(9), 494–498. https://doi.org/10.1016/j.tips.2004.07.003
Choi, C., & Kappel, F. (2004). Inbreeding, coancestry, and founding clones of sweet cherries from North America. Journal of the American Society for Horticultural Science, 129(4), 535–543. https://doi.org/10.21273/jashs.129.4.0535
Montanari, S., Postman, J., Bassil, N. V., & Neale, D. B. (2020). Reconstruction of the largest pedigree network for pear cultivars and evaluation of the genetic diversity of the USDA-ARS national Pyrus collection. G3: Genes, Genomes, Genetics, 10(9), 3285–3297. https://doi.org/10.1534/g3.120.401327
Noiton, D. A. M., & Alspach, P. A. (1996). Founding clones, inbreeding, coancestry, and status number of modern apple cultivars. Journal of the American Society for Horticultural Science, 121(5), 773–782. https://doi.org/10.21273/jashs.121.5.773
Scorza, R., Mehlenbacher, S. A., & Lightner, G. W. (2022). Inbreeding and Coancestry of Freestone Peach Cultivars of the Eastern United States and Implications for Peach Germplasm Improvement. Journal of the American Society for Horticultural Science, 110(4), 547–552. https://doi.org/10.21273/jashs.110.4.547
Vogl-Lukasser, B., & Vogl, C. R. (2004). Ethnobotanical Research in Homegardens of Small Farmers In the Alpine Region of Osttirol (Austria): An example for bridges built and building bridges. Ethnobotany Research and Applications, 2, 111. https://doi.org/10.17348/era.2.0.111-137
The Book of Pears: The Definitive History and Guide to Over 500 Varieties by Joan Morgan
https://www.gardenia.net/plant/viburnum-carlcephalum
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CRISPR History and Applications
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Jabbar, A., Zulfiqar, F., Mahnoor, M., Mushtaq, N., Zaman, M. H., din, A. S. U., … Ahmad, H. I. (2021). Advances and Perspectives in the Application of CRISPR-Cas9 in Livestock. Molecular Biotechnology, 63(9), 757–767. https://doi.org/10.1007/s12033-021-00347-2
Jin, F. J., Wang, B. T., Wang, Z. D., Jin, L., & Han, P. (2022). CRISPR/Cas9-Based Genome Editing and Its Application in Aspergillus Species. Journal of Fungi, 8(5). https://doi.org/10.3390/jof8050467
Lino, C. A., Harper, J. C., Carney, J. P., & Timlin, J. A. (2018). Delivering crispr: A review of the challenges and approaches. Drug Delivery, 25(1), 1234–1257. https://doi.org/10.1080/10717544.2018.1474964
Zhu, H., Li, C., & Gao, C. (2020). Applications of CRISPR–Cas in agriculture and plant biotechnology. Nature Reviews Molecular Cell Biology, 21(11), 661–677. https://doi.org/10.1038/s41580-020-00288-9
Gholamreza Salehi Jouzani, Mortaza Aghbashlo, and M. T. (2020). Fungi in Fuel Biotechnology. Fungi in Fuel Biotechnology.
Pabulo H. Rampelotto. (2020). Grand Challenges in Fungal Biotechnology. Chapter 12 Spotlight on Class I Hydrophobins: Their Intriguing Biochemical Properties and Industrial Prospects. Retrieved from https://www.researchgate.net/publication/338461559%0Ahttp://link.springer.com/10.1007/978-3-030-29541-7%0Ahttps://www.researchgate.net/publication/338461559%0Ahttp://link.springer.com/10.1007/978-3-030-29541-7
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Alt-Tech 165 Weed Control in Adzuki Beans
Soltani, N., Brown, L., & Sikkema, P. H. (2021). Weed management in azuki bean with preplant incorporated herbicides. Legume Science, 3(1), 1–9. https://doi.org/10.1002/leg3.66
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Apple Genealogy
https://www.hort.purdue.edu/newcrop/pri/coop38-3.html
https://www.saltspringapplecompany.com/nonpareil
https://pomiferous.com/
https://smallbiztrends.com/2014/06/psychology-of-colors.html
Cliff, M. A., Sanford, K., & Johnston, E. (1999). Evaluation of hedonic scores and R-indices for visual, flavour and texture preferences of apple cultivars by British Columbian and Nova Scotian consumers. Canadian Journal of Plant Science, 79(3), 395–399. https://doi.org/10.4141/P98-101
Cornille, A., Antolín, F., Garcia, E., Vernesi, C., Fietta, A., Brinkkemper, O., … Roldán-Ruiz, I. (2019). A Multifaceted Overview of Apple Tree Domestication. Trends in Plant Science, 24(8), 770–782. https://doi.org/10.1016/j.tplants.2019.05.007
Gharghania, A., Zamani, Z., Talaie, A., Fattahi, R., Hajnajari, H., Oraguzie, N. C., … Gardiner, S. E. (2010). The role of Iran (Persia) in apple (Malus × domestica Borkh.) domestication, evolution and migration via the Silk Trade Route. Acta Horticulturae, 859(April), 229–236. https://doi.org/10.17660/actahortic.2010.859.26
Gritsenko, D., Pozharskiy, A., Dolgikh, S., Aubakirova, K., Kenzhebekova, R., Galiakparov, N., … Sadykov, S. (2022). Apple varieties from Kazakhstan and their relation to foreign cultivars assessed with RosBREED 10K SNP array. European Journal of Horticultural Science, 87(1), 1–8. https://doi.org/10.17660/eJHS.2022/006
Howard, N. P., Micheletti, D., Luby, J. J., Durel, C. E., Denancé, C., Muranty, H., … Albach, D. C. (2022). Pedigree reconstruction for triploid apple cultivars using single nucleotide polymorphism array data. Plants People Planet, (March), 1–14. https://doi.org/10.1002/ppp3.10313
Howard, N. P., Van De Weg, E., Bedford, D. S., Peace, C. P., Vanderzande, S., Clark, M. D., … Luby, J. J. (2017). Elucidation of the Honeycrisp’ pedigree through haplotype analysis with a multi-family integrated SNP linkage map and a large apple (Malus×domestica) pedigree-connected SNP data set. Horticulture Research, 4(January), 1–7. https://doi.org/10.1038/hortres.2017.3
Luby, J. J., Howard, N. P., Tillman, J. R., & Bedford, D. S. (2022). Extended Pedigrees of Apple Cultivars from the University of Minnesota Breeding Program Elucidated Using SNP Array Markers. HortScience, 57(3), 472–477. https://doi.org/10.21273/HORTSCI16354-21
Noiton, D. A. M., & Alspach, P. A. (1996). Founding Clones , Inbreeding , Coancestry , and Status Number of Modern Apple Cultivars, 121(5), 773–782.
Ordidge, M., Kirdwichai, P., Fazil Baksh, M., Venison, E. P., George Gibbings, J., & Dunwell, J. M. (2018). Genetic analysis of a major international collection of cultivated apple varieties reveals previously unknown historic heteroploid and inbred relationships. PLoS ONE, 13(9), 1–26. https://doi.org/10.1371/journal.pone.0202405
Spence, C. (2015). On the psychological impact of food colour. Flavour, 4(1), 1–16. https://doi.org/10.1186/s13411-015-0031-3
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