Distinction from Near Extinction of Kalanamak: A Heritage Rice’s Journey from a Remote Village to the Globe


R. C. Chaudhary1 , Pushker Chauhary1 , Pradeep Yadav 1 , A. K. Mishra2

1Participatory Rural Development Foundation, 59 Nahar Road, Gorakhpur 273014 - U. P., India.

2International Rice Research Institute, IRRI - ISARC, National Seed Research and Training Centre (NSRTC) Campus, GT Road, Varanasi 22016 - U.P. India.

Corresponding Author Email: ram.chaudhary@gmail.com

DOI : https://doi.org/10.51470/AGRI.2024.3.2.26

Abstract

Kalanamak, a landrace of rice (Oryza sativa L.), often referred to as “Buddha Home Rice” or ‘Buddha Rice,’ holds a significant place in the cultural and agricultural history of India. This heritage rice variety is believed to be blessed by Lord Buddha himself to the farmers of Bajaha village in Siddharthnagar district of U. P., some 3000 years ago. Facing extinction but due to the Bhagirath Prayas of one scientist, now touching the world market. parts of programme involved germplasm collection, followed by the pureline selection, hybridization and selection, and modern revival to reach to global level. Historically prized for its unique fragrance, taste, and nutritional benefits, Kalanamak rice saw a decline during the Green Revolution due to its lower yield compared to modern rice varieties.

However, the success of Kalanamak rice faces challenges, particularly in ensuring authenticity and quality control amidst the proliferation of counterfeit products. Advanced technologies such as blockchain and QR code-based traceability systems are proposed to combat these issues. Sustainable agricultural practices, ongoing research, and innovations are emphasized as crucial for the continued growth and environmental viability of Kalanamak rice cultivation.

Keywords

export potential, germplasm collection, heritage rice, Kalanamak rice, nutritional benefits, Sustainable agriculture

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  1. Historical Significance and Cultural Tale of Kalanamak rice

The history of Kalanamak rice is deeply intertwined with the local myths and cultural practices of the region. According to legend [16], [53]; [59], Lord Gautam Buddha, after he received enlightenment, was returning from Bodha Gaya to his father’s kingdom in Kapilvastu, he was requested by the villagers of Bajaha jungle (now Bajaha and Mathala villages) to bless them.  He then took out a fist of paddy seeds from his bag and asked them to grow these in the lowland. The fragrance of the rice will remind them of Him and the nutritive value as His blessing.  This story has not only persisted but has also become a part of the local folklore, enhancing the cultural significance of Kalanamak rice [7], [16].

  1. Decline to near extinction of Kalanamak

The decline of Kalanamak rice cultivation can be attributed to several socio-economic and technical factors. Basically, there were four major reasons for the decline of the Kalanamak area. First was the advent of High Yielding Varieties (HYV) of rice in 1965, which yielded double Kalanamak.  The second reason was the absence of any improved variety of Kalanamak which had become a Land Race and admixture. The third reason was the neglect of Kalanamak by the research and academic institutions [21], [22].  The fourth reason was the loss of aroma and grain quality due to unscientific seed production. The sum of all the factors reduced the Kalanamak area (Table 1).

  1. Organized Improvement of Kalanamak rice

Organized efforts to improve Kalanamak did not start until 1974 [54], though the Department of Agriculture did try to test some Kalanamak germplasm at their research centers. The first organized efforts started at G. B. Pant University of Agriculture and Technology, Pantnagar with the start of Mutation Breeding [1], [2].  Not much could be achieved except getting some mutants of academic interest in Kalanamak [17]. Later Pantnagar did try testing some germplasm of Kalanamak but nothing of use could come out.  

3. Germplasm Collection and Evaluation of Kalanamak

Before the germplasm collection of Kalanamak was formally started, some preliminary work on inducing mutation in Kalanamak rice was done at G. B. Pant University of Agriculture and Technology, Pantnagar [1], [2], [34].   Organized germplasm collection was done with financial assistance from the U . P. Council of Agricultural Research (UPCAR) described below [16].

3.1 Germplasm Collection: A collection of Kalanamak germplasm was done in order to get some superior types for further varietal improvement programmes.  The germplasm was collected as a single panicle collection and bulk collection from sources like farmers’ fields and research institutions [5], [20], [18], [19]

The single panicle collections were used for developing purelines and bulk collections were tested for yield potential.

3.2  Single Panicle Collection :

A total of 1,455 panicles were collected from farmers’ fields of Maharajganj, Sant Kabir Nagar, and Siddharth Nagar districts. These panicles were tested organoleptically for aroma and classified as aromatic and -non-aromatic types.  Only 12.57% of panicles were found aromatic (belonging to 5 accessions), and the rest 87.43% were non-aromatic.  Aromatic types were sown in nursery beds using the concept of the panicle-to-row method.  Seedlings from one panicle were transplanted in a single row.

Observations on initial and 50% flowering, tillering ability, maturity, etc. were recorded. Initial flowering ranged between 100 to 108 days and 50% flowering ranged between 104 to 114 days. Maturity duration ranged between the ranges of 134 to 144 days. Superior performing and scented lines were identified, and 5 single plants were harvested separately. The frequency of aromatic lines for each accession is provided in Table 2.

Table 2 reveals that from the 226 lines out of five accessions only 70 lines were found to be aromatic (33.58%) in the current cropping season. Thus there has been improvement as the frequency of aromatic lines has been doubled in one cycle of selection only.  Therefore, it is expected that in the next two cycles, pure aromatic lines could be developed.  Further, the stability of the aroma of such pure lines of Kalanamak in various locations could then be tested.

3.3  Bulk Collection :

A total of 39 bulk collections were collected from different sources.  Out of these, 16 collections were from PRDF Gorakhpur; 8 collections from NDUAT, Ayodhya, and 15 collections from CRRI, Cuttack.  These collections were tested in a randomized block design (RBD) using a multi-location trial with 2 replications in 4 districts.  The trials were arranged at the following locations.

PRDF experimental plot         (Gorakhpur)

Sampatiha                               (Maharajganj)

Jhingurapar                            (Sant Kabir Nagar)

Ghoswa                                   (Siddharthnagar)

In these purposely delayed sowing trials, observations for seedling height, and seedling vigour were recorded at the seedling stage.  Just before transplanting, average heights ranged from 33 to  38 cm.  Vigour was normal but KN 38, 41, and 42 were more vigorous.  Since the experiment could be planted late, initial flowering ranged between 87 to 93 and 50% flowering ranged between 91 to 101 days.  Maturity duration ranged between 121 to 131 days and other characters ranged too (Table 3). 

The mature crop was harvested and yield data of each accession for each location was recorded.   The data were analyzed to find out accessions with superior yield potential using ANOVA.  After analysis, KN 53, 55, and 56 were found significantly superior at all the locations over the rest of the accessions.  However, KN 48, 54, and 58 were found significantly superior only at two locations. Thus finally KN 48, 53, 54, 55, 56, and 58 had been selected for better yield potential from a total of 39 accessions.  Also, visually superior panicles from each accession were collected for further study.

All these accessions have National Accession Number [24].  Details are described in the Catalogue and publications [5], [24]; [20], [33], [18], [19], and [7].  One set of these collections were also sent to Directorate of Rice Research (DRR) Hyderabad and Central Rice Research Institute (CRRI), Cuttack for conservation and use at their ends [25], [26], [27], and [28].

  1. Breeding of Kalanamak KN 3

As per procedure, any crop variety to be released for general cultivation in Uttar Pradesh must be tested by the Department of Agriculture at their Regional Agricultural in Testing and Demonstration Stations (RATDS) for three years.  Pureline selection of Kalanamak (KN3-27-3 -3) was tested from 2004 to 2007.  Based on its superior performance it was released by U. P. State Variety Recommendation Committee in 2007 as Kalanamak KN3.  However, it was notified by the Central Sub Committee on Varietal Release and Notification in 2010.  KN 3 was the first Kalanamak rice variety developed through Pureline selection and set a historic platform with original aroma and grain quality [36], [8].   KN 3 became popular with farmers and will remain popular in the low-lying areas where water stagnates for more than half a meter.  Its characters are summarised in Table 4.

Farmers and consumers realized that the aroma and grain quality of Kalanamak have returned back in KN 3 [8], [9], [10], [11], [12], [13], [14], and [15].  Since the variety Kalanamak KN3 was released and notified on the proposal of PRDF Gorakhpur, we retain the exclusive right to produce Nucleus Seed and Breeder Seed [9].  Other organizations like National Seeds Corporation, U. P. Beej Vikas Nigam, and others produce Certified Seed of it.  A package of practices for the cultivation of Kalanamak was standardized and publicity was done by All India Radio, Door Darshan, in Indian Farming, Kheti, Rice India, and other popular magazines [6], [25, [26], [27], [28]; and [9].

  1. Breeding of Bauna Kalanamak 101

Regional Agricultural Technology Demonstration & Testing Station (RATDS) of the Department of Agriculture conducts varietal trials annually on the new varieties to be considered for release.  PRDF had proposed a number of semi-dwarf breeding lines of Kalanamak.  These breeding lines were tested at RATDS during the years 2012 to 2014 in a state trial called “Paddy standard varietal trial: Sthaniy Sugandhit”.  The yields and morpho-agronomic characters taken from the three RATDS located in the Eastern Region of U. P. are given in Table 5 [23].

Based on the superior performance of UPCARKN-2-19-14 was proposed for release in the State Variety Release Committee in 2015.   Farmers have liked it and it was already cultivated in more than 2,000 acres during Kharif 2014.  Yields were very high but the grain quality characters of Bauna Kalanamak 101 were analyzed and found to be a bit different from the tall Kalanamak KN3.  The husk colour was brownish, not black, and also grain was a bit coarser than KN3.  However, due to yield advantage farmers liked it and expanded the area [50], [51], [52], [37], [38].  The aroma quantification was done by IICT Hyderabad and the results are reproduced below.

  1. Breeding of Bauna Kalanamak 102

A proposal for the release of Bauna Kalanamak 102 was put up once the U. P. State Variety Release Committee released it in 2017.  Yields obtained at RATDS and morpho-agronomic characters observed from 2013 to 2015 are summarised in Table 6. Bauna Kalanamak 102 was a definite improvement on the grain characters of Bauna Kalanamak 101.   That is how it became more popular with the farmers and consumers [50], [51], [52].

  1. Breeding of Kalanamak Kiran

Kalanamak Kiran was derived from a cross of KN 3 and Swarna Sub1.  The segregating generations were handled by the Pedigree method of breeding and selection.  The breeding line was purified as PRDF-2-14-10-1-1 and tested as PRDF-2-14-10 and the pedigree line PRDF-2-14-10 was tested at RATDS of the Department of Agriculture during 2013 – 2016.  It stood at first rank with an average yield of 32.95 quintal/ha.  It out-yielded the check variety Kalanamak KN3 by 26.58 %. On average PRDF-2-14-10 out-yielded the check variety Kalanamak KN3 by 26.58%. Over the second check variety Lalmati, it out-yielded by 25.23 %.  In AICRIP trials as the IET No. 27453 in AICRIP trials, it out-yielded the check variety Kalanamak KN3 by 33.35% across the country.  It is semi-dwarf, lodging resistant, and suitable for harvesting by combine harvester (Table 7).  On the date of the planting trial, it was established that a seed sown in the -mid-June and transplanted in -mid-July is the best for its performance and yield (Table 8) as it is a highly photoperiod sensitive variety, and inherited from its Kalanamak parent.  The resistance to pests and disease is acceptable, as compared to the other varieties of the group (Table 9).  

The grain quality was tested in the Regional Food Analysis and Research Centre (R-FRAC) at Lucknow, and in the Asia Pacific Lab in Singapore (Table 10).  PRDF-2-14-10 has the same black husk, white and aromatic rice grain with excellent cooking quality, as the original Kalanamak KN3. Its aroma content was confirmed by the Indian Institute of Chemical Technology (IICT), Hyderabad through sophisticated tests.  Its aroma content was confirmed by the Indian Institute of Chemical Technology (IICT), Hyderabad confirmed its aroma equal to KN3. Kalanamak Kiran has the same level of Iron and Zinc as its original parent Kalanamak KN3 [42], [43], [44], [45], and [46]. 

Compared to its 200 cm tall parent KN3 (Fig. 1), PRDF-2-14-10 (Kalanamak Kiran) is semi-dwarf (height 95 cm (Fig. 2), highly resistant to lodging and shattering, and is suitable for harvesting by combine harvester. PRDF-2-14-10 (Kalanamak Kiran) matures earlier than Kalanamak KN3 by about 10 days.  This early maturity enables planting of the following Rabi crop earlier, by 10 days.  Therefore, PRDF-2-14-10 was found superior to the checks in all these tests and was recommended for release as Kalanamak Kiran by the U. P. State Variety Release Sub-Committee in its 56th meeting held on 19th May 2017 at Lucknow.   Based on the above superior features of PRDF-2-14-10, the U. P. State Variety Release Sub-Committee proposes that PRDF-2-14-10 should be released and notified as Kalanamak Kiran for eastern Uttar Pradesh.  It was notified by the Government of India Gazette of India under Gazette No. 3220 (Part II (3) dated 06 08.2019.

  1. Kalanamak Rice: Key Feature

8.1 Unique grain Quality attributes and pleasant Aroma

Kalanamak rice is distinguished by its unique black husk and white rice (Fig. 3), and greenish kernel if unpolished (Fig.4). extraordinary fragrance. The name “Kalanamak” is derived from two words: “Kala” meaning black and “Namak” meaning salt, referring to the black husk, and Namak referring to marshy soils that contain salt. Its palatability is excellent when cultivated in this particular soil. The aromatic quality of Kalanamak rice is one of its most celebrated features. This fragrance is attributed to the presence of a compound called 2-acetyl-1-pyrroline, which is also found in other aromatic rice varieties like Basmati and Jasmine. However, the concentration of this compound is higher in Kalanamak, making its aroma more pronounced [52].

The grain size of Kalanamak rice varies from short to medium, and it has a high elongation ratio when cooked. This means that the rice grains expand significantly upon cooking, resulting in a fluffy and soft texture. The combination of its unique fragrance, texture, and mouth feel is the unique quality of Kalanamak.  Kalanamak rice is a gourmet product, often sought after by connoisseurs of fine foods (Table 10).

The rice’s aroma is so distinctive that it has been described in historical texts and local folklore as capable of attracting herds of deer from the jungle. This legend is not only a testament to its fragrance but also highlights the cultural importance of Kalanamak rice in the region.

8.2 Nutritional Properties

Kalanamak rice is not only prized for its aromatic qualities but also for its nutritional benefits. Studies have shown that Kalanamak rice is rich in micronutrients such as iron and zinc, which are essential for human health. The iron content in Kalanamak rice is significantly higher compared to other rice varieties, making it beneficial for preventing anaemia and other iron-deficiency disorders. The zinc content is also noteworthy, contributing to the rice’s role in boosting the immune system and supporting metabolic functions (Table 10).

In addition to its micronutrient content, Kalanamak rice has a higher protein content than many common rice varieties. It contains about 11% protein, which is nearly double that of Basmati. This makes it a valuable food source, particularly in regions where protein intake might be limited. The rice also has a low glycemic index (GI), ranging between 49% and 52%, making it suitable for people with diabetes as it does not cause a rapid spike in blood sugar levels [55], [56], and [16].

The rice is also rich in antioxidants, which help in combating oxidative stress in the body. These antioxidants are crucial for preventing chronic diseases and promoting overall health. The presence of beta-carotene in Kalanamak rice, which is not found in many other rice varieties, adds to its nutritional profile by providing Vitamin A, important for vision and immune function [47], [48], [49], [50], [51], [52]. The nutritional benefits of Kalanamak rice, highlight its superiority and value as a heritage crop variety (Table 10).

8.3 Comparison with Other Rice Varieties

When compared to other popular rice varieties, such as Basmati, Kalanamak rice holds its own due to its unique qualities. Basmati rice, known for its long grains and distinctive aroma, is often used in Indian and Middle Eastern cuisines. Jasmine rice, another aromatic variety, is popular in Southeast Asia [47], [48], and [49]. While both these varieties are highly regarded for their flavour and texture, Kalanamak rice surpasses them.

Firstly, the fragrance of Kalanamak rice is stronger and more lingering than that of Basmati or Jasmine. The higher concentration of 2-acetyl-1-pyrroline in Kalanamak rice gives it a more robust aroma. Secondly, the nutritional content of Kalanamak rice, particularly its higher levels of iron and zinc, provides health benefits that are not as prominent in Basmati or Jasmine rice (Tables 11, 12).  Besides Kalanamak has a good amount of Vitamin A in the form of Beta Carotene.  The quantity is more than that of Golden rice [15].  

In terms of texture, Kalanamak rice is softer and fluffier when cooked, compared to the slightly firmer texture of Basmati. This makes it suitable for a variety of dishes, from simple boiled rice to more elaborate preparations. The elongation ratio of Kalanamak rice, although significant, is not as high as that of Basmati, which makes it less prone to breaking during cooking, thus retaining its shape and integrity better [56], {57], [58], and [16].

Economic factors also played a role in the decline. The lack of market support and the absence of premium pricing for Kalanamak rice made it less attractive for farmers. Over time, the focus shifted to more commercially viable varieties, leading to the near extinction of Kalanamak rice by the 1990s [15].

  1. Geographic Indication (GI) Tag

In recognition of its unique qualities and historical significance, Kalanamak rice was awarded the Geographic Indication (GI) tag in 2013. This GI tag has been given for its association with 11 districts – Siddharthnagar, Kushinagar, Maharajganj, Gorakhpur, Bahraich, Balrampur, Basti, Deoria, Gonda, Sant Kabir Nagar, and Shrawasti (Fig. 5).  This tag is crucial as it helps in preserving the authenticity of the Kalanamak rice and protecting it from counterfeit products. The GI tag identifies Kalanamak rice with the specific region of Siddharth Nagar and its adjacent districts, thereby ensuring that only rice grown in this area can be marketed under the name ‘Kalanamak’.[60], [61], [62], and [63]..

The GI tag (Fig. 5) awarded to Kalanamak rice in 2010, and valid until 2030 (Fig.6), has also played a crucial role in its revival [35]. The GI tag protects the authenticity of the rice and serves as an inspiration for other regions and products 57, [60], [61] , [62], [63].

  1. Prosperity of Kalanamak Farmers

Due to poor yield, poor quality, and lesser income as compared to HYV rice, the area under Kalanamak had declined (Table 1).   However, now with the availability of a better quality variety of Kalanamak KN3 and high-yielding ones like Bauna Kalanamak 101, 102, and Kalanamak Kiran, those negatives have been annulled.  The government announces a Minimum Support Price (MSP) for fine rice of around Rs. 2,020/ per quintal.  However, most farmers can’t get that rate due to various reasons and are compelled to sell their paddy at lower prices, around Rs. 1,500 per quintal.  Compared to that, Kalanamak paddy sells between Rs. 3,500 to Rs. 4,500 /- per quintal.  Thus, now Kalanamak farmers are tripling their income.   Protocol for producing Organic Kalanamak has been developed [32], [33], [35] that fetches 20 percent higher price.   Common rice with an average yield of 40 qtl/ha can give a net profit of Rs.35,500. Kalanamak KN3 and Bauna Kalanamak can give an average yield of 25 and 55 quintals per ha respectively.  This amounts to a net profit of Rs. 56,875 for KN3 and for Bauna Kalanamak varieties Rs. 88,750.  The net profit thus will be double to triple (Table 13). This should bring prosperity to the farmers of eastern U.P., where Basmati cannot be grown legally due to GI restriction.  Production of Organic Kalanamak further benefits organic farmers by as much as Rs. 1,10,000/- per ha, which amounts to tripling the Kalanamak farmers’ income (Table 13).

  1. Socio-Economic Impact

11.1 Increase in Cultivation Area and Production

The concerted efforts by farmers, scientists, and the government have led to a significant increase in the cultivation area and production of Kalanamak rice. From a mere few thousand hectares in the early 2000s, the area under Kalanamak rice cultivation has expanded to tens of thousands of hectares by 2023. This expansion has been driven by the adoption of improved varieties, better agricultural practices, and increased market demand [16].

The development of dwarf varieties like Bauna Kalanamak 101, Buna Kalanamak 102, and Kalanamak Kiran has been particularly instrumental in this increase. These varieties are more resistant to lodging and pests, offer higher yields, and are better suited to modern farming techniques. The introduction of these varieties, along with training and support provided by government and non-governmental organizations, has encouraged more farmers to switch to Kalanamak rice cultivation.

The increase in production has also been supported by improved government policies, infrastructure and market access. The establishment of processing and packaging centres, often managed by FPOs, has ensured that the rice is processed and packaged efficiently, maintaining its quality and appeal. Enhanced market access through both traditional and e-commerce platforms has provided farmers with broader markets, ensuring better returns on their produce [50], [51], and [52].

  1. Challenges for Future

12.1 Legal Protection to Kalanamak

The Protection of Plant Varieties and Farmers Rights Act (PPV & FRA) came into being in 2001. The scope and importance of the act is amply clear from its name. This gives the right to farmers to own, retain, sow, re-sow, and sell the seed of their varieties.  Accordingly, we at PRDF helped the farmers of Siddharthnagar to get the registration of Kalanamak done under PPV & FRA on 8th April 2009. The registration assures that no individual or organization can steal the rights of the farmers of Kalanamak KN3 rice.  It is protected until 30th August 2025 [8], [16].

PRDF also helped Kalanamak to get a Geographical Indication (GI) in 2010 covering 11 districts of eastern U. P. (Fig. 4).  It expired in 2020 and once again, PRDF helped get the GI protection extended (Fig. 5) until 2030. Geographical Indication of Goods (GI) as the name implies, is an indication, in the form of a name or sign, used on the goods that have a specific geographical origin and possess qualities or a reputation that are due to the place of its origin.  This was signed into an Act on 30th December 1999 by the President of India and enacted on 15th September 2003 [4].  GI protects the consumer and also safeguards the interests of the producers. The GI is perceived as both an origin and quality indicator because of which the consumer willingly pays a premium price, and producers make a bigger profit that leads to the growth of the regional economy.  The importance and benefits of GI have been described will in the publications emanating from PRDF  [3], [60], [61], [62], [63], [38], and [39].  Looking into all the benefits it would bring to Kalanamak as a commodity and Agro-climatic Zone No. 7 of Uttar Pradesh, its impact can well be imagined.   GI for Kalanamak covers 11 districts namely Bahraich, Balrampur, Basti, Deoria, Gonda, Gorakhpur, Kushinagar, Maharajganj, Sant Kabir Nagar, Siddharth Nagar, and Shrawasti, located between Nepal border in the north to Ghaghra river in the south, Bahraich in the west to Deoria in the east (Figs. 4, 5).  GI was registered for Kalanamak in August 2010 and published in the GI Journal of the Government of India, is now validated until 2030

12.2 Counterfeit and Adulterated Products

Despite the successful branding and commercialization efforts, Kalanamak rice faces significant challenges related to counterfeit and adulterated products. The high demand and premium pricing of Kalanamak rice have led to the proliferation of fake products in the market. Unscrupulous traders often mix Kalanamak rice with lower-quality varieties, or entirely counterfeit the product, misleading consumers and undermining the brand’s reputation.  The problem stems from the lack of any regulation to control it. 

Efforts to combat counterfeit and adulterated products include the use of advanced technologies such as blockchain and QR code-based traceability systems. These technologies enable consumers to verify the authenticity of Kalanamak rice by scanning codes on the packaging, which provide detailed information about the product’s origin, processing, and distribution. Such measures are essential to protect the integrity of the brand and ensure that consumers receive genuine Kalanamak rice [16].

12.3 Ensuring Authenticity and Quality Control

One of the most significant challenges facing Kalanamak rice is ensuring its authenticity and quality control. The high market value and growing demand for Kalanamak rice have led to an increase in counterfeit and adulterated products. These fake products undermine consumer trust and can severely damage the reputation of this heritage rice.

To combat this, advanced technologies such as blockchain and QR code-based traceability systems can be employed. Blockchain technology can provide a secure and immutable ledger of the entire supply chain, from farm to fork. By using blockchain, every transaction involving Kalanamak rice can be recorded, ensuring transparency and traceability. Consumers can scan QR codes on the packaging to verify the authenticity of the rice, and obtain detailed information about its origin, cultivation practices, and supply chain journey.

In addition to technological solutions, strengthening regulatory frameworks is crucial. Governments and regulatory bodies need to enforce stringent quality control standards and conduct regular inspections to ensure compliance. Certification schemes, such as the GI tag, must be rigorously implemented and monitored to prevent misuse. Public awareness campaigns can educate consumers about the importance of purchasing authentic Kalanamak rice and recognizing counterfeit products.  To handle all these issues, the establishment of the Kalanamak Promotion Board has been mooted to the government in 2022.  Their decision is long awaited [15], [16].

Collaboration between stakeholders, including farmers, government agencies, researchers, and businesses, is essential to develop and implement these measures effectively. Creating a robust system of checks and balances will help maintain the integrity of Kalanamak rice and protect it from fraudulent practices.

  1. Expanding Market Reach

Expanding the market reach of Kalanamak rice involves both domestic and international efforts. While the rebranding as ‘Buddha Rice’ has been successful in attracting attention, continuous marketing and outreach are necessary to maintain and grow its consumer base. Targeted marketing campaigns that emphasize the unique qualities and historical significance of Kalanamak rice can help attract new customers. Participating in international food exhibitions and trade fairs can also showcase Kalanamak rice to a global audience.

In the domestic market, promoting Kalanamak rice through local and regional festivals, culinary events, and organic food markets can enhance its visibility and appeal. Collaborations with renowned chefs and food bloggers can create a buzz and highlight the rice’s exceptional culinary qualities (55]. Developing partnerships with retail chains and specialty stores can ensure that Kalanamak rice is available in premium outlets, catering to health-conscious and gourmet consumers [16], [18].

  1. Summary of the Journey from Legend to Modern Revival

Kalanamak rice, often referred to as the ‘Buddha rice,’ boasts a fascinating journey that intertwines legend, history, and modern agricultural science. This aromatic rice variety, native to the Tarai region of Uttar Pradesh, India, has a storied past linked to Gautam Buddha, who is believed to have bestowed the rice upon the region’s farmers. The legend says that Buddha, during his travels, gifted the villagers seeds of Kalanamak rice, blessing them with the promise that the rice would carry a fragrance that would remind them of him [16].  The historical cultivation of Kalanamak rice flourished for centuries, known for its distinct aroma, taste, and health benefits. However, the advent of the Green Revolution in the mid-20th century brought high-yielding, modern rice varieties that overshadowed traditional types like Kalanamak. Farmers began to abandon Kalanamak rice due to its lower yield and the intensive labour required for its cultivation, leading to a drastic decline in its acreage [57], [58].

The revival of Kalanamak rice began in the late 20th century, spearheaded by dedicated agricultural scientists and supported by government initiatives. Efforts focused on enhancing the rice’s agronomic traits while preserving its unique qualities. Dr. Ram Chet Chaudhary’s pioneering work in developing improved varieties such as KN3 and dwarf versions like Bauna Kalanamak 101, Bauna Kalanamak102, and Kalanamak Kiran played a crucial role in this revival. These varieties addressed issues of low yield and lodging, making Kalanamak rice more viable for modern agriculture [7], [16].  The Geographical Indication (GI) tag awarded to Kalanamak rice in 2013 marked a significant milestone, protecting its authenticity and boosting its market appeal. Branding initiatives, particularly the rebranding as ‘Buddha Rice,’ and export efforts under schemes like the One District One Product (ODOP) have expanded its reach to international markets. Farmer Producer Organizations (FPOs) and e-commerce platforms have further facilitated the commercialization and distribution of Kalanamak rice, ensuring better returns for farmers and contributing to the regional economy.

In conclusion, the journey of Kalanamak rice from legend to modern revival is a powerful example of how traditional knowledge and modern science can come together to create sustainable solutions. By preserving the heritage of Kalanamak rice and promoting innovation,  this unique rice variety continues to thrive and contribute to the well-being of farmers, consumers, and the environment.

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8.            Chaudhary, R. C. 2016. Story of heritage rice Kalanamak: Extinction to distinction in eastern Uttar Pradesh. In: Research Interface: promoting Exportable Rice Varieties and Evolving a Sustainable Development Model. Edit. Dr. Chandrika Prasad, VARDAN, New Delhi, pp.: 49 – 67.

  • Chaudhary, R. C. 2019. Intellectual Property and Breeders Right in India. In: Protecting Plant Breeders’ Rights in Agricultural Research and Development. Proc. Conf. Bihar Agriculture University, Sabour, Bhagalpur, Bihar; PP; – 25: 
  • Chaudhary, R. C. 2020a. Scent of Kalanamak paddy is returning: There is tremendous boom in the area. First Eye News. July 25,  1- 2 p.
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  • Chaudhary, R. C. 2023. Kalanamak Dhan: Atit se Vartman, (in Hindi). Army Press, Lucknow, India. pages 300.
  • Chaudhary, R. C. and Chauhan, J. S. 1979. Note on isozyme pattern of monogenic recessive vegetative mutant in Kalanamak rice.  Proc. Symp. Role of Induced Mutations in Crop Improvement. Sept. 10 -2.

18.       Chaudhary, R. C. and Mishra, S. B. 2010.  Collection of unique rice germplasm from the cradle of rice (Oryza sativa L.) in Eastern Uttar Pradesh. In:  Genetic Resources of Rice in India: Past and Present; Ed. S. D. Sharma. Today & Tomorrow’s Printers, New Delhi, pages: 587 – 594.

19.       Chaudhary, R. C. and Mishra, S. B. 2016. Development and use of organic protocol to promote Kalanamak rice (Oryza sativa L.) and is certification under PGS Mode. Current Advances in Agricultural Sciences. Vol. 8 (1): 28 – 31.

20.       Chaudhary, R. C. and Prajapati, S. C. 2007. Rice in its original home: interwoven diversity of rice varieties, agro-ecosystems and farmers in Uttar Pradesh (India). In: Agro-Economical traits of Rice Cultivation in Europe and India. Eds. Aldo Ferrero and Francesco Vidotto, EU – ECCP, Edcioni Mercurio, Vercelli, Italy. 

21.       Chaudhary, R. C. and Tran D. V. (Eds.), 2001a. Speciality Rices of the World: Breeding, Production and Marketing, FAO, Rome, Italy; 358 pp.

 22.      Chaudhary, R. C. and Tran D. V. 2001b. Speciality rices of the world: A prologue. In: Chaudhary, R. C. and Tran D. V. 2001. Speciality Rices of the World: Breeding, Production and Marketing; FAO Rome, Italy; (eds. Chaudhary, R. C. and Tran, D. V.) p. 3 – 12.

23.       Chaudhary, R. C. and Kumar, S. 2018. Bauna Kalanamak 101: New aromatic variety of heritage rice.  FARM Journal. Vol. 2 (1): 31 – 37.

24.       Chaudhary, R. C.; Prajapati, S. C. ; Chaudhary, N.; Anita; and Shukla, A. K. 2007. Diversity in rice, its cultivation and its uses in the area of its origin: Eastern Uttar Pradesh, India. In: Geographical Researches on Rice: A Comparative Analysis of Rice Districts in the European Union and India; 165 – 176 pp. In: Geographical Researches on Rice: A Comparative Analysis of Rice Districts in the European Union and India. Editors Davide Papotti and Carlo Brusa; EU – ECCP, Edizioni Mecurio, Vercelli, Italy.

25.       Chaudhary, R. C., S. B. Mishra, D. N. Dubey and Pushker Chaudhary 2008a.  Short-grained aromatic rice Kalanamak: its Export potential. Commodity Today, Vol. 1 (9): pages 28 – 29.

26.       Chaudhary, R. C., S. B. Mishra and D. N. Dubey 2008b.  Cultivation of new variety of rice Kalanamak”. Indian Farming; Vol.  58 (6), September : 21 – 24. 

27.       Chaudhary, R. C., S. B. Mishra and D. N. Dubey 2008c.  : Scented rice variety of new Kalanamak and its cultivation package (Hindi); Kheti; Vol.61 (6), September: 10 – 12.

28.       Chaudhary, R. C., S. B. Mishra and D. N. Dubey. 2008d. Scented rice variety Kalanamak and its cultivation for better quality and high yield.  Rice India, Vol. 18 (8): 23 -2 5.

29.       Chaudhary, R. C., S. B. Mishra, D. N. Dubey and Pushker Chaudhary 2008e.  Short-grained aromatic rice Kalanamak: its Export potential. Commodity Today, Vol. 1 (9): pages 28 – 29.

30.       Chaudhary, R. C., S. B. Mishra and D. N. Dubey 2008f.  : Scented rice variety of new Kalanamak and its cultivation package (Hindi); Kheti; Vol.61 (6), September: 10 – 12.

31.       Chaudhary, R. C., S. B. Mishra and D. N. Dubey. 2008g. Scented rice variety Kalanamak and its cultivation for better quality and high yield.  Rice India, Vol. 18 (8): 23 -2 5.

32.       Chaudhary, R. C.; Gandhe, A. and Mishra, S. B. 2010a. Manual on organic production of Kalanamak rice. PRDF Gorakhpur, India; 45 pp.

33.       Chaudhary, R. C.; Pandey, A.; Mishra, S. B.; Dubey, D. N.; Chaudhary, P.; and Kumar D. 2010b. In: Catalogue of Aromatic rices of Eastern Uttar Pradesh.  Eds. R. S. Rathor and C. Prasad. U. P. Council of Agricultural Research, Lucknow, pp 180.

34.       Chaudhary, R. C.; Mishra, S. B.; Yadav, S. K. and Jabir Ali 2012. Extinction to distinction: Current status of Kalanamak, the heritage rice of eastern Uttar Pradesh and its likely role in farmers’ prosperity.  LMA Convention Journal. Vol. 8 (1): 7 – 14.

35.       Chaudhary, R. C., S. B. Mishra, and D. Kumar 2013. Organic Farming of Kalanamak rice (in Hindi). Kheti, Vol. 66 (1); April 2013; 3 – 6.

37.       Chaudhary, R. C., Kumar, Sunil, and Mishra, S. B. 2016. New variety of aromatic rice: Bauna Kalanamak 101 (in Hindi). Kahaar. (Vol. 1 & 2): 1 – 5.

38.       Chaudhary, R. C.; Yadav, S. K and Kumar, Sunil. 2017a.  Geographical Indications in Indian agriculture on the anvil.  J. Bio. Innov. Vol. 6 (5): 790 – 816.

39.       Chaudhary, R. C.; Yadav, S. K. and Sahani, A.. 2017b. Present status and potentiality of Geographical Indications registration in Uttar Pradesh. National Symp. on IPRs in Agriculture Sector, BBAU & UPCAR Lucknow. 4 – 14 p. 193 pp.

40.       Chaudhary, R. C., Kumar, Sunil, and Mishra, S. B. 2017c. Recent variety of aromatic rice: Bauna Kalanamak 102 (in Hindi). Kahaar. (Vol. 1 & 2): 9 – 13.

41.       Chaudhary, R. C.;  Kumar, S.  and Mishra, S. B. 2018. Sustainable Tripling of Farmers’ Income by Improving Heritage Rice Kalanamak (Jorhat Conference) In:  International Conf. Climate Change, Biodiversity and Sustainable Agric culture, Assam Agri University, Jorhat & PHSS, Lucknow 13 -1 6 Dec. 2018.

42.       Chaudhary, R. C. ; Sahani, A. and Mishra, S. b. 2020a. Kalanamak chawal ke jaivik kheti ke anubhav. Krishi Manjusha. Vol. 2 (2) 13 – 17.

43.       Chaudhary, R. C.; Mishra, S. B. and Sahani, Anjali 2020b. Sugar free, aromatic and Nutritious rice variety Kalanamak Kiran notified in 2019. Nature Times magazine. Vol.1 (April 2020). p. 31 -36.

44.       Chaudhary, R. C.; Sahani, A.; Mishra, S. B. and Kumar, R. 2020c. “Kalanamak Kiran” Dan Sugandhit, Loha aur Zasta se Bharpur. Krishi Jagran, 27 April pp 4.

45.       Chaudhary, R. C,, Sahani, A.; Mishra, S. B. and Kumar, R. 2020d.  Kalanamak Kiran variety of rice developed as Aromatic, Nutritious and Sugar Free. Indian Farmers’ Digest. Vol. 53 : 4 – 8

46.       Chaudhary, R. C.; Anjali Sahani; Mishra, S. B. and Kumar, Ravindra 2020e. “Kalanamak Kiran” Dhaan Sugandhit, Loha aur Zasta se Bharpur. Krishi Jagran, 27 April pp 4.

47.       Chaudhary, R. C.; Singh, Smriti; Yadav, Ritima; Das, Swapna; and Sahani, A. 2022a. High beta carotene discovered in Kalanamak rice. 2022. Journal of AgriSearch Vol. 8 (4): 379 – 380.

48.       Chaudhary , R. C.; Sahani, A. and Mishra, S. B. 2022b. Improvement of Local Germplasm of Kalanamak Rice to benefit Environment, Health and Wealth.  Scientific Research Journal of Agriculture and Life Sciences, Vol. 2 (1): ISSN Print : 2788-9378 | ISSN Online : 2788-9386 / Website : https://isrpgroup.org/srjals-32=2022/

49.       Chaudhary, R. C.; Sahani, A. and Mishra, S. B. 2022c. Gem from Local Germplasm of Kalanamak Rice for Environment, Health and Wealth. International Journal of Multidisciplinary Research and Development. Vol. 3 (2): 427 – 432.

50.       Kumar, S.; Mishra, S. B. and Chaudhary, R. C. 2018a. Breeding Bauna Kalanamak 101 as a New Aromatic Variety of Heritage Rice for Uttar Pradesh. International J. Sci, Environ and Tech. Vol. 7(2): 580 – 590.

51.       Kumar, Sunil; S. B. Mishra and R. C. Chaudhary  2018b. Breeding Bauna Kalanamak 102 as New Aromatic Variety of Heritage Rice from Uttar Pradesh. . International J. Sci, Environ and Tech. Vol. 7(5): 1690-1699.

52.     Kumar, D., Chaudhary, R. C., & Singh, Y. 2024. Kalanamak rice: A heritage variety. Asian Journal of Agricultural Extension, Economics & Sociology, 42(2), 189-199. https://doi.org/10.9734/ajaees/2024/v42i218327.

53.       Legge, James 2021. A Record of Buddhistic Kingdoms.  Publ. Dagny, J. B. and Widger, David. www.gutenberg.org

54.       Nanda, J. S.; Chaudhary, R. C.; Singh, J. P.; Singh, H. P.; and Gupta, M. D. 1974. Breeding for quality rice through induced mutation. Proc. Symp. Use of Radiations and Radioisotopes in Studies of Plant Productivity. Pantnagar, April 12 – 14, 1974. pp. 24-32.

55.       Pandey, Shweta: Tripathi, Vaishnavi;Sahin, Atika, Sahin; and Dubey, Pallavi 2022. Food Products of Broken Kalanamak Rice.  PRDF Manual 22-1, 38 pp. (Publ. Dr. R. C. Chaudhary, PRDF Gorakhpur 273014, India), www.prdf-agri.com  

56.       Singh, R. K. and Singh, U. S. 2005. Scented Rices of Uttar Pradesh and Uttaranchal. Kalyani Publishers, ISBN: 9788127223908.

57.       Singh, R. K.; Sahai, V. N.; Sharma, R. N.; Singh, U. S.; Singh S. and Singh, O. N. 2001. Current status and future prospects of improving traditional aromatic rice varieties in India. In: Speciality Rices of the World: Breeding, Production and Marketing. (Eds. R. C. Chaudhary and D. V. Tran) pp. 80 – 87.

58.       Singh, U S Singh;  Singh,  Neelam; Singh,  H. N. ; Singh, O. P. and Singh, R. K. 2005. Rediscovering scented rice cultivar Kalanamak. Asian History Foundation, Vol. 9 (3). 211 – 219. 

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60.       Yadav, S. K.; Chaudhary, R. C. and Sahani, A. 2017a.  Registration for Geographical Indication in Uttar Pradesh: Present status and future potential. International J. Trend in Research & Development.  Vol. 4 (6): 48 – 57.

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63.       Yadav, S. K;  Chaudhary, R. C. ; Kumar, S. and  Mishra, S. B.  2019. Breakthrough in Tripling Farmers Income Sustainably by Producing Kalanamak rice.  Journal of Agri Search, Vol. 6(1): 1 – 5.