References
- Baskin, C. C., and J. M. Baskin. 1998. Seeds: Ecology, biogeography, and evolution of dormancy and germination. San Diego, CA, USA: Elsevier.
- Baskin, J. M., C. C. Baskin, and X. Li. 2000. Taxonomy, anatomy, and evolution of physical dormancy. Plant Species Biology 15 (2):139–9. doi:10.1046/j.1442-1984.2000.00034.x.
- Callaway, J. C. 2004. Hempseed as a nutritional resource: An overview. Euphytica 140:65–72. doi:10.1007/s10681-004-4811-6.
- Clarke, R. C., and M. Merlin. 2013. Cannabis: Evolution and ethnobotany. Berkely, CA, USA: The University of California Press.
- DeBolt, S., W. R. Scheible, K. Schrick, M. Auer, F. Beisson, V. Bischoff, P. Bouvier-Nave, A. Carrol, K. Hematy, Y. Li, et al. 2009. Mutations in UDP-glucose: Sterol glucosyltransferase in arabidopsis causes transparent testa phenotype and suberization defect in seeds. Plant Physiology 151 (1):78–87. doi:10.1104/pp.109.140582.
- Dixon, R. A., D. Y. Xie, and S. B. Sharma. 2005. Proanthocyanidins – a final frontier in flavonoid research? The New Phytologist 165 (1):9–28. doi:10.1111/j.1469-8137.2004.01217.x.
- Farinon, B., R. Molinari, L. Costantini, and N. Merendino. 2020. The seed of industrial hemp (Cannabis sativa L.): Nutritional quality and potential functionality for human health and nutrition. Nutrients 12 (7):1935. doi:10.3390/nu12071935.
- Geisler, G. E., T. T. Pinto, M. Santos, and M. T. S. Paulilo. 2017. Seed structures in water uptake, dormancy release, and germination of two tropical forest fabaceae species with physically dormant seeds. Brazilian Journal of Botany 40 (1):67–77. doi:10.1007/s40415-016-0334-3.
- Molina, I., J. B. Ohlrogge, and M. Pollard. 2008. Deposition and localization of lipid polyester in developing seeds of Brassica napus and Arabidopsis thaliana. Plant Journal 53 (3):437–49. doi:10.1111/j.1365-313X.2007.03348.x.
- Montero, L., D. Ballesteros-Vivas, A. F. Gonzalez-Barrios, and A. P. Sánchez-Camargo. 2022. Hemp seeds: Nutritional value, associated bioactivities and the potential food applications in the Colombian context. Frontiers in Nutrition 9:1039180. doi:10.3389/fnut.2022.1039180.
- Naraine, S. G. U., E. Small, A. E. Laursen, and L. G. Campbell. 2020. A multivariate analysis of morphological divergence of “seeds” (achenes) among ruderal, fibre, oilseed, dioecious/monoecious and marijuana variants of cannabis sativa L. Genetic Resources and Crop Evolution 67 (3):703–14. doi:10.1007/s10722-019-00848-9.
- Pabon-Mora, N., and A. Litt. 2011. Comparative anatomical and developmental analysis of dry and fleshy fruits of Solanaceae. American Journal of Botany 98 (9):1415–36. doi:10.3732/ajb.1100097.
- Pourcel, L., J. ‐. Routaboul, L. Kerhoas, M. Caboche, L. Lepiniec, and I. Debeaujon. 2005. TRANSPARENT TESTA10 Encodes a laccase‐like enzyme involved in oxidative polymerization of flavonoids in Arabidopsis seed coat. The Plant Cell 17 (11):2966–80. doi:10.1105/tpc.105.035154.
- Rodrigues-Junior, A. G., J. M. R. Faria, T. A. A. Vaz, A. T. Nakamura, and A. C. José. 2014. Physical dormancy in Senna multijuga (Fabaceae: Caesalpinioideae) seeds: The role of seed structures in water uptake. Seed Science and Research 24 (2):147–57. doi:10.1017/S0960258514000087.
- Rusu, I. E., R. A. Marc, C. C. Mureşan, A. E. Mureşan, M. R. Filip, B. M. Onica, K. B. Csaba, E. Alexa, L. Szanto, and S. Muste. 2021a. Advanced characterization of hemp flour (Cannabis sativa L.) from Dacia Secuieni and Zenit varieties, compared to wheat flour. Plants 10 (6):1237. doi:10.3390/plants10061237.
- Rusu, I. E., R. A. Marc, C. C. Mureşan, A. E. Mureşan, V. Mureşan, C. R. Pop, M. S. Chiş, S. M. Man, M. R. Filip, B. M. Onica, et al. 2021b. Hemp (Cannabis sativa L.) flour-based wheat bread as fortified bakery product. Plants 10 (8):1558. doi:10.3390/plants10081558.
- Sano, N., L. Rajjou, H. M. North, I. Debeaujon, A. Marion-Poll, and M. Seo. 2016. Staying alive: Molecular aspects of seed longevity. Plant Cell Physiology 57 (4):660–74. doi:10.1093/pcp/pcv186.
- Small, E. 1974. Morphological variation of achenes of Cannabis. Canadian Journal of Botany 53 (10):978–87. doi:10.1139/b75-117.
- Spengler, R. N. 2020. Anthropogenic seed dispersal: Rethinking the origins of plant domestication. Trends in Plant Science 25 (4):340–48. doi:10.1016/j.tplants.2020.01.005.
- Sperber, K., T. Steinbrecher, K. Graeber, G. Scherer, S. Clausing, N. Wiegand, J. E. Hourston, R. Kurre, G. Leubner-Metzger, and K. Mummenhoff. 2017. Fruit fracture biomechanics and the release of Lepidium didymum pericarp-imposed mechanical dormancy by fungi. Nature Communications 8:1868. doi:10.1038/s41467-017-02051-9.
- Stern, K. R. 1994. Introductory plant biology, 114–18. Dubuque, IOWA: Wm C. Brown Publishers.
- Tsai, A. Y.-L., R. McGee, G. H. Dean, G. W. Haughn, and S. Sawa. 2021. Seed mucilage: Biological functions and potential applications in biotechnology. Plant Cell Physiology 62 (12):1847–57. doi:10.1093/pcp/pcab099.
- Western, T. L., D. J. Skinner, and G. W. Haughn. 2000. Differentiation of mucilage secretory cells of the Arabidopsis seed coat. Plant Physiology 122:345–56. doi:10.1104/pp.122.2.345.
- Windsor, J. B., V. V. Symonds, J. Mendenhall, and A. M. Lloyd. 2000. Arabidopsis seed coat development: Morphological differentiation of the outer integument. Plant Journal 22 (6):483–93. doi:10.1046/j.1365-313x.2000.00756.x.
- Zhu, M., S. Dai, Q. Ma, and S. Li. 2021. Identification of the initial water-site and movement in Gleditsia sinensis seeds and its relation to seed coat structure. Plant Methods 17:55. doi:10.1186/s13007-021-00756-z.