Bamboo shoots: an exploration into its culinary heritage in India and its nutraceutical potential
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F. Dilnawaz | A. Behera | P. K. Sahu | B. Chowdhury | Biswajeet Acharya | Suchismeeta Behera | D. Mishra
[1] S. Ramasubramanian,et al. Bioprospecting of Bamboo: A Review , 2023, Asian Journal of Biotechnology and Bioresource Technology.
[2] Yun Liu,et al. Sequential extraction, structural characterization, and antioxidant activity of polysaccharides from Dendrocalamus brandisii bamboo shoot shell , 2023, Food chemistry: X.
[3] S. Pendse,et al. Unveiling the pharmaceutical and therapeutic potentials of Bambusa vulgaris essential oil , 2023, Vegetos.
[4] A. Baghel,et al. Pharmacognosy, physicochemistry, phytochemistry, pharmacological and ethnomedicinal profiles of Bambusa arundinacea (Retz.) Willd. seeds: a scoping review , 2023, Plant Science Today.
[5] Siqi Wan,et al. Bamboo leaf: A review of traditional medicinal property, phytochemistry, pharmacology, and purification technology. , 2023, Journal of ethnopharmacology.
[6] Kenta Kumagae,et al. Melanin Synthesis Inhibition Activity of Compounds Isolated from Bamboo Shoot Skin (Phyllostachys pubescens) , 2022, Molecules.
[7] N. Jayarambabu,et al. Bambusa arundinacea leaves extract-derived Ag NPs: evaluation of the photocatalytic, antioxidant, antibacterial, and anticancer activities , 2022, Applied Physics A.
[8] D. Bhardwaj,et al. Nutritive value of tender shoots of different bamboo species in relation to harvesting height in mid-hills of north-western Himalayas , 2022, Applied Food Research.
[9] B. Sivamaruthi,et al. The Role and Significance of Bacillus and Lactobacillus Species in Thai Fermented Foods , 2022, Fermentation.
[10] Hui Zhang,et al. Recent advances in the fabrication, health benefits, and food applications of bamboo cellulose , 2022, Food Hydrocolloids for Health.
[11] T. Panda,et al. Bamboo: A Source of Multiple Uses for Adoption as an Alternative Livelihood in Odisha, India , 2022, Journal of Tropical Biology & Conservation (JTBC).
[12] Yuanhao Huang,et al. Effects of Fermented Bamboo Shoot Processing Waste on Growth Performance, Serum Parameters, and Gut Microbiota of Weaned Piglets , 2022, Animals : an open access journal from MDPI.
[13] N. Yeasmen,et al. Local-traditional foods of Bangladesh: A treasure to be preserved , 2022, International Journal of Gastronomy and Food Science.
[14] Yafeng Zheng,et al. Polysaccharides from Bamboo Shoot (Leleba oldhami Nakal) Byproducts Alleviate Antibiotic-Associated Diarrhea in Mice through Their Interactions with Gut Microbiota , 2022, Foods.
[15] J. Tamang. Dietary culture and antiquity of the Himalayan fermented foods and alcoholic fermented beverages , 2022, Journal of Ethnic Foods.
[16] Lalthansangi Ralte. Food, Memory and Identity: Tracing Mizo Foodways , 2022, LITINFINITE JOURNAL.
[17] Zhaoming Liu,et al. Effects of Mixed Inoculation of Leuconostoc Citreum and Lactobacillus Plantarum on Suansun (Sour Bamboo Shoot) Fermentation , 2022, SSRN Electronic Journal.
[18] Haixiang Wang,et al. Effect of Lactobacillus rhamnosus GG fermentation on the structural and functional properties of dietary fiber in bamboo shoot and its application in bread. , 2022, Journal of food biochemistry.
[19] Suchandra Gupta,et al. An overview on ethnic fermented food and beverages of India: Interplay of microbes, immunity and nutrition , 2022, Nutrition and health.
[20] E. Marin,et al. Investigating the Effect of Smoke Treatment on Hygroscopic Characteristics of Bamboo by FTIR and Raman Spectroscopy , 2022, Materials.
[21] Gustavo Leite Milião,et al. Unconventional Food Plants: nutritional aspects and perspectives for industrial applications , 2022, Future Foods.
[22] Changying Xia,et al. Moso Bamboo Invasion Reshapes Community Structure of Denitrifying Bacteria in Rhizosphere of Alsophila spinulosa , 2022, Microorganisms.
[23] H. Roubík,et al. Effects of Biochar Produced From Tropical Rice Straw, Corncob and Bamboo Tree at Different Processing Temperatures on in Vitro Rumen Fermentation and Methane Production , 2021, Biomass Conversion and Biorefinery.
[24] D. Kikon. Bamboo Shoot in Our Blood , 2021, Current Anthropology.
[25] A. Hashem,et al. Metagenomic Analysis of Bacterial Diversity in Traditional Fermented Foods Reveals Food-Specific Dominance of Specific Bacterial Taxa , 2021, Fermentation.
[26] A. Chandra,et al. Thyroid Functions in Bamboo-Shoots Consuming Children of Tripura, North-east India , 2021 .
[27] Oinam Santosh,et al. Bioactive Compounds in Bamboo Shoot , 2020, Reference Series in Phytochemistry.
[28] S. Mahungu,et al. Feed rate, water addition rate and mixture composition nexus role on alterations of nutritional properties in extrusion of composites containing rice ( Oryza sativa ), sorghum [ Sorghum bicolor ), and bamboo ( Yushania alpina ) shoots , 2020 .
[29] M. S. Bisht,et al. Bamboo Shoot , 2020 .
[30] Firdaus Pratama Wiwoho,et al. The Utilization of Bamboo Innovation as Aggregate Substitute for Paving Block , 2020, Journal of Physics: Conference Series.
[31] Zhidan Zhang,et al. Total Alkaloids from Bamboo Shoots and Bamboo Shoot Shells of Pleioblastus amarus (Keng) Keng f. and Their Anti-Inflammatory Activities , 2019, Molecules.
[32] E. P. Nurlaili,et al. The Effects of Pretreatments on Physicochemical Properties of Bamboo Shoots (Bambusa vulgaris schard var. vitula) Flour , 2019, IOP Conference Series: Earth and Environmental Science.
[33] R. Kaushal,et al. Status of Bamboo in India , 2019, International Journal of Economic Plants.
[34] M. Clerici,et al. Young bamboo culm: Potential food as source of fiber and starch. , 2017, Food research international.
[35] P. S. Kumar,et al. Bamboo shoot as a source of nutraceuticals and bioactive compounds: A review , 2017 .
[36] Dakshayani Mahapatra,et al. Morphological and functional alterations of female reproduction after regular exposure of bamboo shoots of North East India , 2017 .
[37] K. Thakur,et al. Fermented Bamboo Shoots: A Riche Niche for Beneficial Microbes , 2016 .
[38] H. Rusmarilin,et al. The Making of Meat Satay by Using Bamboo Shoot Flour and Mackerel Flour (Rastrelliger sp.) Fortified with Bamboo Shoot Tempeh and Different Concentration of Stabilizers , 2016 .
[39] A. Haque,et al. Analgesic and antihyperglycemic activity evaluation of Bambusa vulgaris aerial parts. , 2015 .
[40] T. Usha,et al. Bamboo, as potential sources of food security, economic prosperity and ecological security in North-East India: an overview. , 2015 .
[41] A. Sood,et al. Nutritional Characterization of Shoots and Other Edible Products of an Edible Bamboo - Dendrocalamus hamiltonii , 2013 .
[42] Anelena L. de Carvalho,et al. Bamboo-Dominated Forests of the Southwest Amazon: Detection, Spatial Extent, Life Cycle Length and Flowering Waves , 2013, PloS one.
[43] G. D. Sharma,et al. Value addition to bamboo shoots: a review , 2012, Journal of Food Science and Technology.
[44] Smita Mishra,et al. Ethnobotanical flora used by four major tribes of Koraput, Odisha, India , 2012, Genetic Resources and Crop Evolution.
[45] Lalit M. Bal,et al. Bamboo shoot: a potential source of food security , 2011 .
[46] M. S. Bisht,et al. Nutritional Properties of Bamboo Shoots: Potential and Prospects for Utilization as a Health Food , 2011 .
[47] V. Potdar,et al. Pharmacological Screening of Bambusa vulgaris and Cocos nucifera Root Extracts for Their Potential Diuretic Activity. , 2010 .
[48] Subbiah Mariappan,et al. Traditional Fermented Products of India , 2010 .
[49] Poonam Singhal,et al. Bamboo shoot processing: food quality and safety aspect (a review) , 2010 .
[50] M. T. Yakubu,et al. Abortifacient potentials of the aqueous extract of Bambusa vulgaris leaves in pregnant Dutch rabbits. , 2009, Contraception.
[51] M. L. Khan,et al. Understanding Bamboo Sector for Income Generation, Employment Opportunity and Sustainable Development of the North-East India , 2008 .
[52] L. Stępniak,et al. The use of the advanced oxidation process in the ozone + hydrogen peroxide system for the removal of cyanide from water , 2008 .
[53] J. Tamang,et al. Phenotypic and genotypic identification of lactic acid bacteria isolated from ethnic fermented bamboo tender shoots of North East India. , 2008 .
[54] Jeffrey A. McNeely,et al. Farming with Nature: The Science and Practice of Ecoagriculture , 2007 .
[55] B. Karlsson. Indigenous politics: Community formation and indigenous peoples' struggle for self‐determination in northeast India , 2001 .
[56] R. S. Peddappaiah,et al. Litter Production and Nutrient Return in Bambusa bambos Plantation , 2000 .
[57] D. Tilman,et al. Global environmental impacts of agricultural expansion: the need for sustainable and efficient practices. , 1999, Proceedings of the National Academy of Sciences of the United States of America.
[58] F. H. Saikim,et al. A comprehensive review of the ethnobotanical, phytochemical, and pharmacological properties of the genus Bambusa , 2023, Journal of Applied Pharmaceutical Science.
[59] Wanjia Zhang,et al. Comparison of physicochemical properties of three types of bamboo shoot powders , 2023, Food Science and Technology.
[60] M. Omwamba,et al. Sensory Evaluation of Wheat-Cassava-Bamboo Shoot Composite Bread , 2022, Journal of Food and Nutrition Sciences.
[61] N. Oduor,et al. Nutrient Content of Bamboo Shoots from Selected Species in Kenya , 2022, American Journal of Agriculture and Forestry.
[62] S. Hidayati,et al. Potential of Modified Flour Derived from The Bamboo Shoot and Swamp Tuber Origin from South Kalimantan as Environmentally Friendly Food , 2022 .
[63] Oinam Santosh,et al. Application of Bamboo in the Food and Pharmaceutical Industry , 2021, Biotechnological Advances in Bamboo.
[64] D. A. Darmajana,et al. The reduction of hydrogen cyanide (HCN) and the measurement of antioxidant activity in bamboo shoot as the raw material for cookies , 2019, PROCEEDINGS OF THE 5TH INTERNATIONAL SYMPOSIUM ON APPLIED CHEMISTRY 2019.
[65] B. Shrivastava,et al. Diuretic potential of Cynodon dactylon, Emblica officinalis, Kalanchoe pinnata and Bambusa nutans , 2018 .
[66] Stephen H. Bell,et al. A ?scoping review. , 2018, Sexual health.
[67] A. Singh,et al. Ethnoecological Survey of Underutilized Plant Diversity of Hamirpur District, Himachal Pradesh, India: An Edibility Assessment , 2017 .
[68] O. P. Chauhan,et al. Bamboo Shoots: Composition, Nutritional Value, Therapeutic Role and Product Development for Value Addition , 2016 .
[69] S. Biswas,et al. TRADITIONAL TECHNIQUES FOR PROCESSING BAMBOO SHOOTS IN NORTHEAST INDIA AS FOOD RESOURCE , 2015 .
[70] A. Benton. Priority Species of Bamboo , 2015 .
[71] N. Saini. Bamboo Resource of Himachal Pradesh (India) and Potential of Shoots in Socio-economic Development of the State , 2015 .
[72] Dr. Potshangbam Nongdam. Traditional fermented bamboo shoot foods of North-East India and their characteristic natural microbial flora , 2015 .
[73] N. Nehal. Knowledge of Traditional Fermented Food Products Harbored by the Tribal Folks of the Indian Himalayan Belt , 2013 .
[74] S. C. Deka,et al. Fermented foods and beverages of the North-East Indi. , 2012 .
[75] D. Ram,et al. Prospects of Agriculture and Allied Entrepreneurship Development in North-East India , 2012 .
[76] T. Kalita,et al. A comparative study on indigenous usage of Bambo shoot in the health care practices in NE India , 2012 .
[77] A. Pandey,et al. Precooking processing of bamboo shoots for removal of anti-nutrients , 2011, Journal of Food Science and Technology.
[78] J. S. Rawat,et al. Prospects of bamboo shoot processing in north-east India. , 2010 .
[79] R. Sinha,et al. Market potential of Muli [Melocanna baccifera (Roxb.) Kurz] bamboo shoots and its traditional recipes in Tripura. , 2009 .
[80] A. A. Mao,et al. Traditional fermented foods of the Naga tribes of Northeastern, India , 2007 .
[81] Ranjay Singh,et al. Cultural significance and diversities of ethnic foods of Northeast India , 2007 .
[82] Hilde van der Togt,et al. Publisher's Note , 2003, J. Netw. Comput. Appl..
[83] K. Singh. Resource management perspective of Arunachal agriculture. , 2002 .