Back Article

Rivera R, Edwards KJ, Barker JH, Arnold GM, Ayad G, et al. 1999. Isolation and characterization of polymorphic microsatellites in Cocos nucifera L. Genome 42:668−75

Watson DP. 1973. Coconut as an ornamental. Cooperative Extension Service, University of Hawaii, USA.

Yang Z, Liu Z, Xu H, Li Y, Huang S, et al. 2023. ArecaceaeMDB: a comprehensive multi-omics database for Arecaceae breeding and functional genomics studies. Plant Biotechnology Journal 21:11

Punchihewa PG, Arancon RN. 1999. Coconut: post-harvest operations. Asian and Pacific Coconut Community (APCC).

Mat K, Abdul Kari Z, Rusli ND, Che Harun H, Wei LS, et al. 2022. Coconut palm: Food, feed, and nutraceutical properties. Animals 12:2107

Lauzon R. 2005. Physico-chemical properties and processing possibilities of macapuno cultivars developed at Leyte State University. Philippine Journal of Crop Science 30(2):55−60

Gonzalez B. 1914. The changes occurring in the ripening coconut. The Philippine Agriculturist and Forester 3:25−31

Torres J. 1937. Some notes on Makapuno coconut and its inheritance. Philippine Journal of Agriculture 8:27−37

Angeles JGC, Lado JP, Pascual ED, Laurena AC, Laude RP. 2021. Epigenetic considerations on altered phenotypes of the coconut endosperm. In The Coconut Genome, eds. Rajesh MK, Ramesh SV, Perera L, Kole C. Cham: Springer. pp. 175−90. doi: 10.1007/978-3-030-76649-8_13

SUGIMURA Y. 1993. Endosperm characteristics and embryo culture of 'Makapuno'coconut. Japanese Journal of Tropical Agriculture 37:128−31

Abraham A, Ninan CA, Gopinath P. 1965. Cytology of development of abnormal endosperm in Philippine Makapuno coconuts. Caryologia 18:395−408

Samosir Y, Rillo E, Mashud N, Lien VTM, Kembu A, et al. 2006. Revealing the potential of elite coconut types through tissue culture. Proceedings of the International Coconut Forum, Cairns, Australia, 2005. Canberra: ACIAR. pp. 125.

Nguyen QT, Bandupriya HD, Foale M, Adkins SW. 2016. Biology, propagation and utilization of elite coconut varieties (makapuno and aromatics). Plant Physiology and Biochemistry 109:579−89

Gunathilake KDPP. 2009. Nutritional composition of dikiri coconut. CORD 25:7

Gunathilake KDPP, Mohammad JMA, Perera GRPK, Thilakahewa C, Kumara ANN. 2010. Value added products from dikiri coconuts: preparation, compositional and sensory qualities. CORD 26:18−23

Gunathilake KDPP, Samarasinghe DNH. 2015. Evaluation of properties of dikiri pulp in the formulation of jam. CORD 31:26−32

Santoso U, Kubo K, Ota T, Tadokoro T, Maekawa A. 1996. Nutrient composition of kopyor coconuts (Cocos nucifera L.). Food Chemistry 57:299−304

Del Rosario R, Gabuya E. 1980. Preliminary studies on the polysaccharide composition of coconut and makapuno [mutant coconut] cell wall. Philippine Journal of Coconut Studies 5:17−22

Balasubramaniam K. 1976. Polysaccharides of the kernel of maturing and matured coconuts. Journal of Food Science 41:1370−73

Sivakumar V, Sudha R, Niral V, Neema M, Geethanjali S. xxxx. MAKAPUNO - a gelatinous mutant coconut variety. Vigyan Varta 3:15−20

Jayalekshmy A, Mathew AG. 1990. Changes in the carbohydrates and proteins of coconut during roasting. Food Chemistry 37:123−34

Lado JP, Arellano BZ, Osio CAL, Tendero BJT, de la Vina C, et al. 2019. Early differential expression of galactomannan biosynthesis genes in 'Makapuno' coconut (Cocos nucifera L.) revealed by the de novo assembly and analysis of endosperm transcriptome. Philippine Agricultural Scientist 102:6−24

Rodriguez MJB. 2010. Makapuno coconut: a potential new commercial source of galactomannan. CORD 26:11−17

Mudgil D. 2017. The interaction between insoluble and soluble fiber. Dietary Fiber for the Prevention of Cardiovascular Disease, ed. Samaan RA. Amsterdam, the Netherlands: Academic Press, Elsevier. pp. 35−59. doi: 10.1016/B978-0-12-805130-6.00003-3

Phonphoem W, Sinthuvanich C, Aramrak A, Sirichiewsakul S, Arikit S, et al. 2022. Nutritional profiles, phytochemical analysis, antioxidant activity and DNA damage protection of makapuno derived from Thai aromatic coconut. Foods 11:3912

Ciudad-Mulero M, Fernández-Ruiz V, Matallana-González MC, Morales P. 2019. Dietary fiber sources and human benefits: The case study of cereal and pseudocereals. Vol. 90. Amsterdam, the Netherlands: Academic Press, Elsevier. pp. 83−134. doi: 10.1016/bs.afnr.2019.02.002

Sudarsono, Maskromo I, Diniarti D, Rahayu MS, Sukma D, et al. 2014. Current research and development on Kopyor coconut in Indonesia. Proceeding on Coconut National Conference VIII, Indonesian Center for Estate Crops Researh and Development, Bogor, 2014. Indonesia: Crop Research Center Indonesia.

Maskromo I, Tenda ET, Tulalo MA, Novarianto H, Sukma D, et al. 2015. Phenotypic and genotypic variabilities among kopyor dwarf coconut varieties originated from Pati, Central Java. Journal Litri 21:1−8

Malaurie B. 2001. Medium- and long-term conservation and safe international exchange of germplasm from food and cash tropical crops. Acta Horticulturae 560:69−77

Assy Bah B, Durand-Gasselin T, Pannetier C. 1987. Use of zygotic embryo culture to collect germplasm of coconut (Cocos nucifera L.). Plant Genetic Resources Newsletter 71:4−10

Assy-Bah B, Engelmann F. 1992. Cryopreservation of mature embryos of coconut (Cocos nucifera L.) and subsequent regeneration of plantlets. CryoLetters 13:117−26

Assy-Bah B, Engelmann F. 1993. Medium-term conservation of mature embryos of coconut. Plant Cell Tissue and Organ Culture 33:19−24

Hornung R, Domas R, Lynch PT. 2001. Cryopreservation of plumular explants of coconut (Cocos nucifera L.) to support programmes for mass clonal propagation through somatic embryogenesis. CryoLetters 22:211−20

N'Nan O, Borges M, Konan JLK, Hocher V, Verdeil JL, et al. 2012. A simple protocol for cryopreservation of zygotic embryos of ten accessions of coconut (Cocos nucifera L.). In Vitro Cellular & Developmental Biology - Plant 48:160−66

Sisunandar, Novarianto H, Mashud N, Samosir YMS, Adkins SW. 2014. Embryo maturity plays an important role for the successful cryopreservation of coconut (Cocos nucifera L.). In vitro Cellular & Developmental Biology - Plant 50:688−95

Sisunandar, Rival A, Turquay P, Samosir Y, Adkins SW. 2010. Cryopreservation of coconut (Cocos nucifera L.) zygotic embryos does not induce morphological, cytological or molecular changes in recovered seedlings. Planta 232:435−47

Sisunandar, Sopade PA, Samosir YMS, Rival A, Adkins SW. 2010. Dehydration improves cryopreservation of coconut (Cocos nucifera L.). Cryobiology 61:289−96

Sisunandar, Sopade PA, Samosir YMS, Rival A, Adkins SW. 2012. Conservation of coconut (Cocos nucifera L.) germplasm at sub-zero temperature. CryoLetters 33:465−75

Sun C, Zhang R, Yuan Z, Cao H, Martin JJJ. 2021. Physiology response and resistance evaluation of twenty coconut germplasm resources under low temperature stress. Horticulturae 7:234

Del Rosario AG, De Guzman EV. 1976. The growth of coconut "Makapuno" embryos in vitro as affected by mineral compisition and sugar level of the medium during the liquid and solid culture. The Philippine Journal of Science 105:215−22

Orense OD, Rillo EP, Imperial LAP, Cueto CA, Lobos AA, et al. 2011. Rapid and cost-effective embryo culture technique for commercial production of Makapuno seedlings. CORD 27:20−41

Sukendah, Sudarsono, Witjaksono, Khumaida N. 2008. Improving embryo culture technique of kopyor coconut obtained from Sumenep-East Java trough addition of additive agents and different periods of subculture. Buletin Agronomi 36:16−23

Sisunandar, Alkhikmah, Husin A, Julianto T, Yuniaty A, et al. 2018. Ex vitro rooting using a mini growth chamber increases root induction and accelerates acclimatization of Kopyor coconut (Cocos nucifera L.) embryo culture-derived seedlings. In Vitro Cellular & Developmental Biology - Plant 54:508−17

Sisunandar, Alkhikmah, Husin A, Suyadi A. 2015. Embryo incision as a new technique to double seedling production of Indonesian elite coconut type "Kopyor". Journal of Mathematical and Fundamental Sciences 47:252−60

Maulida D, Erta L, Marveldani. 2020. Kopyor coconut embryo culture uses some concentration of BA and coconut water. Journal Penelitian Pertanian Terapan 20:247−51

Tahardi S, Warga-Dalem K. 1982. Kultur embrio kelapa kopyor in vitro. Menara Perkebunan 50:127−30

Rillo EP. 2004. Importing and growing embryos for the coconut genebank. In Germplasm Health Management for COGENT's Multi-site International Coconut Genebank, ed. Ikin R, Batugal P. Serdang, Selangor DE, Malaysia: International Plant Genetic Resources Institute - Regional Office for Asia, the Pacific and Oceania (IPGRI-APO). pp. 62−68.

Eeuwens CJ. 1976. Mineral requirements for growth and callus initiation of tissue explants excised from mature coconut palms (Cocos nucifera L.) and cultured in vitro. Physiologia Plantarum 36:23−28

Luengwilai K, Beckles DM, Pluemjit O, Siriphanich J. 2014. Postharvest quality and storage life of 'Makapuno' coconut (Cocos nucifera L.). Scientia Horticulturae 175:105−10

Thuzar M, Sae-Lee Y, Saensuk C, Pitaloka MK, Dechkrong P, et al. 2022. Primary root excision induces ERF071, which mediates the development of lateral roots in makapuno coconut (Cocos nucifera L.). Plants 12:105

Phong V. 2020. Tra Vinh province: Promoting Makapuno coconut cultivation with embryo-cultured seedlings. Vietnam Journal of Science, Technology and Engineering 41−42

Thu TNQ, Tri NDH, Thang LQ, Phuong NTM, Thinh PP, et al. 2022. The coconut palm: Techniques for propagation, cultivation, and processing. HCMC, Vietnam: Publishing House of Agriculture. 174 pp.

Giau DTK. 2023. Research for processing and preserving protocol of packed Makapuno ice cream in Tra Vinh province. Bulletin of the Department of Science and Technology of Tra Vinh province

Xuan A. 2023. Value chain exploration of Makapuno coconuts in Cau Ke district. Industry and Trade e-Magazine. https://tapchicongthuong.vn/magazine/khai-thac-gia-tri-dua-sap-cau-ke-111035.htm

Phong V. 2023. Processing materials from Makapuno coconuts for the production of food and cosmetic products. Vietnam Journal of Science, Technology and Engineering

Hien OTM, Dat NV. 2014. The synthesis and evaluation of some physicochemical properties of biodiesel from Makapuno. Can Tho University Journal of Science 26−29

Thao TTN. 2010. Project Concluding Report: Research for improvements in embryo culture of Makapuno coconut (Cocos nucifera L.) in laboratory and nursery stages. Report. Vietnam Ministry of Industry and Trade, Institute for Oil and Oil Plants, Hanoi, Vietnam.

Hong T. 2023. Tra Vinh province: Billion-VND worth from cultivation of embryo-cultured Makapuno coconuts. Newspaper of Economics and Urbanization. https://kinhtedothi.vn/tra-vinh-dua-sap-cay-phoi-giup-nong-dan-thu-tien-ti.html

Hong NTB. 2020. Research for the production of Makapuno seedlings via embryo culture technique in industrial scale. Project Concluding Report. Anh Dao Agricultural Science and Technology Limited Company, Ho Chi Minh City, Vietnam.

Phuong LTT. 2020. Effect of plumule maturity on formation of embryogenic callus in Makapuno coconut (Cocos nucifera L.) variety. Thesis. International University - HCMC, Vietnam.

Binh-Minh T, Nguyen QT, Hoang XLT, Thao NP. 2022. Micropropagation of Vietnamese Green Tall coconut (Cocos nucifera L.) using immature inflorescence. Proceedings of the Vietnam National Conference on Biotechnology, Buon Me Thuot, 2022. pp. 631−37.

Minh D. 2023. Makapuno coconut propagation using tissue culture technology. Vietnam Agriculture

Toan NB, Thanh VC. 2011. Potential development of Makapuno coconut in the Mekong delta of Vietnam. Journal of Renewable Energy and Smart Grid Technology 6:21−28

Hai VM, Thuy PTP, Cuong LD, Thuc LV, Toan NB. 2020. Economic efficiency of Sap coconut and normal coconut in Cau Ke district, Tra Vinh province. HUAF Journal of Agricultural Science and Technology 4:1897−906

Mounika Sai K, Nair S, Mohan M, Kiran AG. 2023. Expression profiling of cell cycle regulatory genes E2F and CDKA during early stages of zygotic embryo culture in coconut (Cocos nucifera L.). Plant Cell, Tissue and Organ Culture 155:709−17

Cutter VM Jr, Wilson KS. 1954. Effect of coconut endosperm and other growth stimulants upon the development in vitro of embryos of Cocos nucifera. Botanical Gazette 115:234−40

Guzman Ed, Rosario Dd. 1964. The growth and development of Cocos nucifera L. (Makapuno) embryos in vitro. Philippine Agriculturist 48:82−94

Biddle J, Nguyen Q, Mu ZH, Foale M, Adkins S, 2020. Germplasm Reestablishment and Seedling Production: Embryo Culture, ed. Adkins S, Foale M, Bourdeix R, Nguyen Q, Biddle J. Cham: Springer. pp. 199−225. doi: 10.1007/978-3-030-44988-9_10

Oropeza C, Verdeil JL, Ashburner G, Cardeña R, Santamaría J. (Eds.) 1999. Current advances in coconut biotechnology. Dordrecht: Springer.

Abraham A, Mathew PM. 1963. Cytology of coconut endosperm. Annals of Botany 27:505−12

White PR. 1943. A Handbook of Plant Tissue Culture. Soil Science 56(2):151

Nitsch JP. 1951. Growth and development in vitro of excised ovaries. American Journal of Botany 38(7):566−77

Ventura P. 1966. A progress report on the development of coconut embryo in artificial media. Philippine Journal of Plant Industry 31:81−87

Rillo E. 1998. PCA's embryo culture technique in the mass production of Makapuno coconuts. Proc. Coconut embryo in vitro culture, Proceedings of the first workshop on embryo culture, Banao, Guinobatan, Albay, Philippines, 1997. pp. 69−78.

Islam MN, Cedo MLO, Namuco LO, Borromeo TH, Aguilar EA. 2009. Effect of fruit age on endosperm type and embryo germination of makapuno coconut. Gene Conserve 8(32):1−12

Samosir YM, Adkins S. 2014. Improving acclimatization through the photoautotrophic culture of coconut (Cocos nucifera) seedlings: an in vitro system for the efficient exchange of germplasm. In Vitro Cellular & Developmental Biology-Plant 50:493−501

Kalaipandian S, Mu Z, Kong EYY, Biddle J, Cave R, et al. 2021. Cloning coconut via somatic embryogenesis: a review of the current status and future prospects. Plants 10:2050

Tahardi JS, Warga-Dalem K. 1982. In vitro culture of Kopyor coconut embryos. Menara Perkebunan 50(5):127−130

Puchakawimol P, Jangchud K, Wuttijumnong P, Mahakarnjanakul W. 2005. Effect of burning process on qualities of aromatic coconut water and coconut meat. Proceedings of 43 ^rd Kasetsart University Annual Conference, Animals, Thailand, 2005. pp. 586−93.

Alfiler A. 1998. Embryo culture activities at the Philippine Coconut Authority-Zamboanga Research Center (PCA-ZRC). Proc. Coconut embryo in vitro culture, Proceedings of the first workshop on embryo culture, Banao, Guinobatan, Albay, Philippines, 1997. pp. 55−63.

Murashige T, Skoog F. 1962. A revised medium for rapid growth and bio assays with tobacco tissue cultures. Physiologia Plantarum 15:473−97

De Guzman E. 1970. The growth and development of coconut 'Makapuno'embryos in vitro I. The induction of rooting. The Philippine Agricultural Scientist 53:65−78

Vu TML. 2002. Coconut embryo culture in Vietnam. In Coconut embryo in vitro culture: part II. Proceedings of second international on embryo culture workshop, Mérida, Yucatán, Mexico, 14-17 March 2000. International Plant Genetic Resources Institute (IPGRI).

Carandang EV. 2002. Makapuno embryo culture: the Philippine Coconut Research and Development Foundation experience. Coconut Embryo In Vitro Culture, Part II. IPGRI-APO, Serdang, Malaysia, 2002. pp. 157−62.

Mu Z, Tran BM, Xu H, Yang Z, Qamar UZ, et al. 2024. Exploring the potential application of coconut water in healthcare and biotechnology: a review. Beverage Plant Research 4:e018

Rillo E, Cueto C, Medes W, Areza-Ubaldo M. 2002. Development of an improved embryo culture protocol for coconut in the Philippines. Proc. Coconut embryo in vitro culture: part II, Proceedings of second international on embryo culture workshop, Mérida, Yucatán, Mexico, 2000.

Mu Z, 2022. Overcoming bottlenecks in the pathway of clonal propagation of coconut (Cocos nucifera L.). Thesis. University of Queensland, Australia. DOI: 10.14264/e6f3f08

Samosir Y, Adkins S. 2005. The use of a CO₂-enrichment system for the improved establishment of embryo-cultured coconut seedlings. Contributing to a Sustainable Future, Perth, WA, 21−24 September 2005. Perth, WA: The Australasian Plant Breeding Association Inc.

Mu Z, Guo X, Biddle J, Foale M, Li Z, et al. 2020. A newly designed chamber for the acclimatization of coconut plantlets coming from in vitro. 2020 World Congress on In Vitro Biology, San Diego, CA, United States, 6 – 10 June, 2020. Heidelberg, Germany: Springer. doi: 10.1007/s11626-020-00455-4

Su CW, Meng XL, Tao R, Umar M. 2023. Chinese consumer confidence: A catalyst for the outbound tourism expenditure? Tourism Economics 29:696−717

Huang R, Jiang Q. 2021. Analysis on the influencing factors of fruits consumption in China. Fujian Agriculture Science 51(11):57−64

Dong L, Wang L, Zhao X, Zhao J, Zhao J, et al. 2023. The status quo and countermeasures of fruit industry brand development of Yunnan Province. Journal of Agriculture 13:102−6

Hua S. 2023. Geographical distribution and determinants of organic agriculture in China. MSc thesis. National Taiwan University, Taipei.

Li Y. 2021. Seed industry innovation and national food security: resource advantages of seed industry in china and its key technology research. Journal of Beijing Jiaotong University (Social Sciences Edition) 20:108−14

Pratama BR, Tooy D, Kim J. 2023. Price competition and shifting demand: the relation between palm and coconut oil exports. Sustainability 16:101

Shankar P, Ahuja S, Tracchio A. 2013. Coconut oil: a review. Agro Food Industry Hi-Tech 24:62−64

NationMaster. 2019. Top Countries in Import of Coconuts (US Dollars - 1988 to 2019). www.nationmaster.com/nmx/ranking/import-of-coconuts#:~:text=%23%2C%201%2C%202%2C%203%2C%204%2C%20159%20Countries%2C,data%2C%20View%20data%2C%20View%20data%2C%20View%20data%2C

Charoenpoom S, Khan MS, Jitpukdeerat S, Sangchan B, Tirastittam P, et al. 2021. The study of quality and standard upgradation of aromatic coconut of Thailand for exportation to China. Turkish Online Journal of Qualitative Inquiry 12(7):8734-43

Anggrasari H, Sari AK, Arminda FR. 2023. The Indonesian coconut oil export opportunities with main trade partner countries in the international market. Buletin Penelitian Sosial Ekonomi Pertanian Fakultas Pertanian Universitas Haluoleo 25:44−55

Xinhua. 2023. Economic Watch: Coconuts make a splash in expanding Chinese market. https://english.news.cn/20230923/6226a577a01143ce8784b55215c1277b/c.html#:~:text=According%20to%20customs%20data%2C%20China,the%20main%20countries%20of%20origin.

Bangkok Post PCL. 2022. Southeast Asian coconuts gain popularity in China. www.bangkokpost.com/business/general/2424071/southeast-asian-coconuts-gain-popularity-in-china

Li Y. 2023. Nation develops growing appetite for food imports. www.ciie.org/zbh/en/news/exhibition/news/20231207/42163.html#:~:text=More%20than%2040%20percent%20of,the%20domestic%20coconut%20processing%20industry

Vietnam News Agency. 2023. Opportunity for Vietnam's coconut exports to US, China. https://en.vietnamplus.vn/opportunity-for-vietnams-coconut-exports-to-us-china/271437.vnp

Philippine Coconut Authority. 2020. PH Among Top 3 Largest Coconut Exporters to China. https://pca.gov.ph/index.php/10-news/392-ph-among-top-3-largest-coconut-exporters-to-china

Zhou L, Wu Y, Yang Y. 2021. Relationship between fatty acid accumulation and FatB gene expression in Cocos nucifera. Guihaia 41(7):1165−72

Chen D, Gao X. 2020. Research on the development path of rural coconut tourism in Hainan under the background of rural revitalization - a case study of Dongjiao Town, Hainan Province. Contemporary Farm Machinery 2020(11):57−59

Lu K, Hou Y. 2020. Analysis and development path of coconut industry in Hainan province. Guangdong Agricultural Sciences 47(6):145−51

LeadLeo. 2023. 2022 China Coconut Whole Industry Chain Market Research. Report. LeadLeo Research Institute. www.leadleo.com/video/details?id=650c0bcda1d8ec3655604af3

Chen B. 2023. Experts see potential of coconuts in Hainan. China Daily. www.chinadaily.com.cn/a/202312/18/WS657f97dca31040ac301a82dd.html

Lu H, Lyu B, Tang J, Wu Q, Wyckhuys KAG, et al. 2023. Ecology, invasion history and biodiversity-driven management of the coconut black-headed caterpillar Opisina arenosella in Asia. Frontiers in Plant Science 14:1116221

Yang L. 2023. Int'l coconut industry forum kicks off in south China's Hainan. https://eng.yidaiyilu.gov.cn/p/0025DU7B.html

Xiao H. 2023. Cool off the sultry heat and drink to good health. The Economic Daily.

Qi M. 2023. Coconut water category booms, industry insiders say it's hard to scale. China Food 15:62−65

Kantachote D, Ratanaburee A, Hayisama-ae W, Sukhoom A, Nunkaew T. 2017. The use of potential probiotic Lactobacillus plantarum DW12 for producing a novel functional beverage from mature coconut water. Journal of Functional Foods 32:401−08

Kamen Club. 2022. China Beverage Industry Product Report 2022. Report.

Jia A. 2023. Why is coconut suddenly becoming so popular in China? https://thelowdown.momentum.asia/why-is-coconut-suddenly-becoming-so-popular-in-china/

Zhou H, Xu X, Huang L, Wu Y, Cao H. 2010. Study on the survival rate of embryogenic test tube seedling of coconut. Chinese Agricultural Science Bulletin 26(9):82−84

Adkins SW, Nguyen QT, Foale M. 2016. Improving the availabity of valuable coconut germplasm using tissue culture technique. CORD 32(2):27−36

Nair MK, Karun A. 1999. Coconut embryo culture: Present status and future trust. CORD 15(2):34

Karunaratne SM, Kurukulaarachchi C, Gamage CKA. 1985. A report on the culture of embryos of dwarf coconut, Cocos nucifera L. var. nana in vitro. COCOS 3:1−8

Talavera C, Contreras F, Espadas F, Fuentes G, Santamaría JM. 2005. Cultivating in vitro coconut palms (Cocos nucifera L.) under glasshouse conditions with natural light, improves in vitro photosynthesis nursery survival and growth. Plant Cell and Tissue and Organ Culture 83:287−92

Magdalita PM, Damasco OP, Adkins SW. 2010. Effect of medium replenishment and acclimatization techniques on growth and survival of embryo cultured coconut seedlings. Philippine Science Letters 3:1−9

Engelmann F, Malaurie B, N'Nan O. 2011. In vitro culture of coconut(Cocos nucifera L.) zygotic embryos. Plant Embryo Culture. Methods in Molecular Biology, eds. Thorpe T, Yeung E. vol 710. Humana Press. pp. 63−72. doi: 10.1007/978-1-61737-988-8_6

Biddle J, Nguyen Q, Mu ZH, Foale M, Adkins S. 2020. Germplasm reestablishment and seedling production: embryo culture. In Coconut Biotechnology: Towards the Sustainability of the 'Tree of Life', eds. Adkins S, Foale M, Bourdeix R, Nguyen Q, Biddle J. Cham: Springer. pp. 199−225. doi: 10.1007/978-3-030-44988-9_10

Sun X, Kaleri GA, Mu Z, Feng Y, Yang Z, et al. 2024. Comparative Transcriptome Analysis Provides Insights into the Effect of Epicuticular Wax Accumulation on Salt Stress in Coconuts. Plants 13:141

Nguyen QT, Dharshani Bandupriya H, López-Villalobos A, Sisunandar S, Foale M, et al. 2015. Tissue culture and associated biotechnological interventions for the improvement of coconut (Cocos nucifera L.): a review. Planta 242:1059−76

Wicaksono A, Raihandhany R, Teixeira da Silva JA. 2021. Kopyor versus macapuno coconuts: are these two edible mutants of Southeast Asia the same? Planta 254:86

Pan K, Wang W, Wang H, Fan H, Wu Y, et al. 2018. Genetic diversity and differentiation of the Hainan Tall coconut (Cocos nucifera L.) as revealed by inter-simple sequence repeat markers. Genetic Resources and Crop Evolution 65:1035−48

Gao J, Shahid R, Ji X, Li S. 2022. Climate change resilience and sustainable tropical agriculture: Farmers' perceptions, reactive adaptations and determinants of reactive adaptations in hainan, China. Atmosphere 13:955