The document summarizes monitoring of field trials conducted at the Rice Research Station in Burma, Guyana in autumn 2015. It finds that plant breeding and seed production trials showed good progress in developing new rice varieties and managing red rice. However, field experiments in agronomy, entomology, and plant pathology were not conducted scientifically or did not receive sufficient pest pressure to draw conclusions. It recommends conducting experiments using scientific designs, developing a seed technology program, obtaining farmer input, and evaluating disease and pest resistance under controlled conditions.
ICRISAT newsletter - Happenings, featured 2 stories from TL III workshops held in Nairobi, Kenya. 1. TL III Monitoring Learning and Evaluation workshop and TL III Genetic Gains - Program Improvement Plan. Read the happenings document for detailed deliberations and way forward from both the workshops.
BRAC is one of the largest NGO of Bangladesh and no. one NGO (Non Governmental Organization) in the world started its agricultural research activities on vegetables during the year 2000 in its own premises of BRAC Agricultural Research & Development Centre (BARDC), Gazipur. However, during the year 2013-14 began to work with internationally reputed World Vegetable Centre (AVRDC) and a very significant achievement has been made through the joint collaboration of BRAC & AVRDC in the vegetable sector. The summary of the outcome has been shown through this presentation. #To enjoy my you tube video on summer tomato cultivation please follow the link: https://www.youtube.com/watch?v=j_UydD6LGO8&t=14s #and also another video: https://www.youtube.com/watch?v=UddTDTzIV6M&t=8s
ICRISAT newsletter - Happenings, featured 2 stories from TL III workshops held in Nairobi, Kenya. 1. TL III Monitoring Learning and Evaluation workshop and TL III Genetic Gains - Program Improvement Plan. Read the happenings document for detailed deliberations and way forward from both the workshops.
BRAC is one of the largest NGO of Bangladesh and no. one NGO (Non Governmental Organization) in the world started its agricultural research activities on vegetables during the year 2000 in its own premises of BRAC Agricultural Research & Development Centre (BARDC), Gazipur. However, during the year 2013-14 began to work with internationally reputed World Vegetable Centre (AVRDC) and a very significant achievement has been made through the joint collaboration of BRAC & AVRDC in the vegetable sector. The summary of the outcome has been shown through this presentation. #To enjoy my you tube video on summer tomato cultivation please follow the link: https://www.youtube.com/watch?v=j_UydD6LGO8&t=14s #and also another video: https://www.youtube.com/watch?v=UddTDTzIV6M&t=8s
SUSTAINABLE CONTRACT FARMING FOR INCREASED COMPETITIVENESS Context BANGLADESHExternalEvents
The study shows the experience of contract farming in Bangladesh, how the system adopts contract growers, the problems they face as well as the feature of selection them.
India is the largest producer of Mango in the world. It produces mangoes of different sizes & shapes. It is fruit which has a large export potential in the International Market.
This Presentation tends to look after the Good Agricultural Practices (GAP) & certifications associated with the export if mango.
while the Good Manufacturing Practices (GMP) is regarding Mango Pulp which is a byproduct of Mango and having a huge demand in the international market.
Stenocarpella maydis and Fusarium graminearum maize cob rots are two most devastating cob rots in maize which causes yield losses and reduce grain quality as a result of mycotoxins which is produced from this fungus. Developing varieties resistant to cob rots is a practical and economic strategy that provides cheaper protection against yield loss and poor grain quality. There is still low adoption of improved varieties partly because of limited incorporation of farmer preferred standards. Therefore farmers’ preferences and perceptions should be captured early in a breeding program to enhance the adoption of released varieties. A focus group discussion (FGD) participatory approach was used in four districts of Uganda to assess farmers’ perceptions on maize cob rots and to investigate the possibilities of breeding for farmer-preferred cob rot resistant varieties. Semi- structured questionnaires were administered to selected seed merchants to consolidate and verify farmers’ reporting on seed varieties. Results ofinvestigationsuggested that absolute cob rot resistance was associated with undesirable traits such as small seededness, late maturing and low yields. Yield and earliness were the most preferred farmer agronomic traits, with a farmer-preference mean derived score of 4.5 and 3.75 respectively from the total of 5. In this regard, selection for farmer-preferred cob rot resistance varieties should strike a balance between yield and or earliness with cob rot resistance.
Evidence at work: Country experience in the use of evidence in policy-making ...ExternalEvents
Evidence at work: Country experience in the use of evidence in policy-making on agricultural biotechnologies presentation by Jikun Huang, Chinese Academy of Sciences, Beijing, China
Achievements on pulses & oilseed research in BRAC have been described. #suggested link of my you tube video on mung bean: https://www.youtube.com/watch?v=7iEszjkUab4&t=8s and the link of lentil cultivation: https://www.youtube.com/watch?v=s3DfknzVx_c #also the link of sesame cultivation: https://www.youtube.com/watch?v=BAFjWsPetK8&t=79s
Presented at the Pulses for Sustainable Agriculture and Human Health” on 31 May-1 June 2016 at NASC, New Delhi, India. The conference was jointly organised by the International Food Policy Research Institute (IFPRI), National Academy of Agricultural Sciences (NAAS), TCi of Cornell University (TCi-CU) and Agriculture Today.
I Rajiv Kumar Patel, student of BSc Hons Agricultural Sciences at Institute of Agricultural Sciences, Banaras Hindu University Varanasi Uttar Pradesh India, presented my slide on Student READY Programme (SRP).
You can contact me through e-mail chlorophyllinhuman@gmail.com for any suggestion/claim.
Pulses R & D in India by Dr. S K Datta, Deputy Director General, Indian Council of Agricultural Research. Presentation at The Pulses Conclave 2014 by India Pulse & Grains Association, IPGA
Monitoring Water Use and Drought at Field to Global Scales, Chris HainNENAwaterscarcity
Workshop on Operationalizing the Regional Collaborative Platform to Address ‘Water Consumption, Water Productivity and Drought Management’ in Agriculture, 27 - 29 October 2015, Cairo, Egypt
SUSTAINABLE CONTRACT FARMING FOR INCREASED COMPETITIVENESS Context BANGLADESHExternalEvents
The study shows the experience of contract farming in Bangladesh, how the system adopts contract growers, the problems they face as well as the feature of selection them.
India is the largest producer of Mango in the world. It produces mangoes of different sizes & shapes. It is fruit which has a large export potential in the International Market.
This Presentation tends to look after the Good Agricultural Practices (GAP) & certifications associated with the export if mango.
while the Good Manufacturing Practices (GMP) is regarding Mango Pulp which is a byproduct of Mango and having a huge demand in the international market.
Stenocarpella maydis and Fusarium graminearum maize cob rots are two most devastating cob rots in maize which causes yield losses and reduce grain quality as a result of mycotoxins which is produced from this fungus. Developing varieties resistant to cob rots is a practical and economic strategy that provides cheaper protection against yield loss and poor grain quality. There is still low adoption of improved varieties partly because of limited incorporation of farmer preferred standards. Therefore farmers’ preferences and perceptions should be captured early in a breeding program to enhance the adoption of released varieties. A focus group discussion (FGD) participatory approach was used in four districts of Uganda to assess farmers’ perceptions on maize cob rots and to investigate the possibilities of breeding for farmer-preferred cob rot resistant varieties. Semi- structured questionnaires were administered to selected seed merchants to consolidate and verify farmers’ reporting on seed varieties. Results ofinvestigationsuggested that absolute cob rot resistance was associated with undesirable traits such as small seededness, late maturing and low yields. Yield and earliness were the most preferred farmer agronomic traits, with a farmer-preference mean derived score of 4.5 and 3.75 respectively from the total of 5. In this regard, selection for farmer-preferred cob rot resistance varieties should strike a balance between yield and or earliness with cob rot resistance.
Evidence at work: Country experience in the use of evidence in policy-making ...ExternalEvents
Evidence at work: Country experience in the use of evidence in policy-making on agricultural biotechnologies presentation by Jikun Huang, Chinese Academy of Sciences, Beijing, China
Achievements on pulses & oilseed research in BRAC have been described. #suggested link of my you tube video on mung bean: https://www.youtube.com/watch?v=7iEszjkUab4&t=8s and the link of lentil cultivation: https://www.youtube.com/watch?v=s3DfknzVx_c #also the link of sesame cultivation: https://www.youtube.com/watch?v=BAFjWsPetK8&t=79s
Presented at the Pulses for Sustainable Agriculture and Human Health” on 31 May-1 June 2016 at NASC, New Delhi, India. The conference was jointly organised by the International Food Policy Research Institute (IFPRI), National Academy of Agricultural Sciences (NAAS), TCi of Cornell University (TCi-CU) and Agriculture Today.
I Rajiv Kumar Patel, student of BSc Hons Agricultural Sciences at Institute of Agricultural Sciences, Banaras Hindu University Varanasi Uttar Pradesh India, presented my slide on Student READY Programme (SRP).
You can contact me through e-mail chlorophyllinhuman@gmail.com for any suggestion/claim.
Pulses R & D in India by Dr. S K Datta, Deputy Director General, Indian Council of Agricultural Research. Presentation at The Pulses Conclave 2014 by India Pulse & Grains Association, IPGA
Monitoring Water Use and Drought at Field to Global Scales, Chris HainNENAwaterscarcity
Workshop on Operationalizing the Regional Collaborative Platform to Address ‘Water Consumption, Water Productivity and Drought Management’ in Agriculture, 27 - 29 October 2015, Cairo, Egypt
irrigation water management deals with various management aspects such as canal management, designing irrigation systems, irrigation efficiency, scheduling and water quaility etc.
IOT based smart security and monitoring devices for agriculture sneha daise paulson
Agriculture sector being the backbone of the Indian economy deserves security. Security not in terms of resources only but also agricultural products needs security and protection at very initial stage, like protection from attacks of rodents or insects, in fields or grain stores. Such challenges should also be taken into consideration. Security systems which are being used now a days are not smart enough to provide real time notification after sensing the problem. The integration of traditional methodology with latest technology as Internet of Things can lead to agricultural modernization. Keeping this scenario in mind an ‘Internet of Things’ based device have been designed, tested and analyzed which is capable of analyzing the sensed information and then transmitting it to the user. This device can be controlled and monitored from remote location and it can be implemented in agricultural fields, grain stores and cold stores for security purpose. This paper is oriented to accentuate the methods to solve such problems like identification of rodents, threats to crops and delivering real time notification based on information analysis and processing without human intervention. In this device, mentioned sensors and electronic devices are integrated using Python scripts. Based on attempted test cases, we were able to achieve success in 84.8% test cases.
This ppt is explained how to develop an automatic irrigation system that switches a pump motor on/off upon sensing moisture content of the soil.By using this method is to reduce human intervention and still ensure proper irrigation.
Edgefxkits.com has a wide range of electronic projects ideas that are primarily helpful for ECE, EEE and EIE students and the ideas can be applied for real life purposes as well.
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Remote Monitoring of Crop Field Using Wireless Sensor NetworkIJMER
International Journal of Modern Engineering Research (IJMER) is Peer reviewed, online Journal. It serves as an international archival forum of scholarly research related to engineering and science education.
Internet of Things (IoT) - We Are at the Tip of An IcebergDr. Mazlan Abbas
You are likely benefitting from The Internet of Things (IoT) today, whether or not you’re familiar with the term. If your phone automatically connects to your car radio, or if you have a smartwatch counting your steps, congratulations! You have adopted one small piece of a very large IoT pie, even if you haven't adopted the name yet.
IoT may sound like a business buzzword, but in reality, it’s a real technological revolution that will impact everything we do. It's the next IT Tsunami of new possibility that is destined to change the face of technology, as we know it. IoT is the interconnectivity between things using wireless communication technology (each with their own unique identifiers) to connect objects, locations, animals, or people to the Internet, thus allowing for the direct transmission of and seamless sharing of data.
IoT represents a massive wave of technical innovation. Highly valuable companies will be built and new ecosystems will emerge from bridging the offline world with the online into one gigantic new network. Our limited understanding of the possibilities hinders our ability to see future applications for any new technology. Mainstream adoption of desktop computers and the Internet didn’t take hold until they became affordable and usable. When that occurred, fantastic and creative new innovation ensued. We are on the cusp of that tipping point with the Internet of Things.
IoT matters because it will create new industries, new companies, new jobs, and new economic growth. It will transform existing segments of our economy: retail, farming, industrial, logistics, cities, and the environment. It will turn your smartphone into the command center for the both digital and physical objects in your life. You will live and work smarter, not harder – and what we are seeing now is only the tip of the iceberg.
Intensification of maize-legume based systems in the semi-arid areas of Tanza...africa-rising
Presented by Ganga Rao, NVRP, Kimaro, A., Makumbi, D., Mponda, O., Msangi, R., Rubanza, C.D., Seetha, A., Swai, E. and Okori, P. at the Africa RISING East and Southern Africa annual review and planning meeting, Lilongwe, Malawi, 3-5 September 2013
Impact of Frontline Demonstration (Fld’s) On Adoption Behavior of Soybean Gro...iosrjce
The main objective of the FLD is to demonstrate newly released crop production and protection
technology and its management practices on the farmer‟s field by the scientists themselves before taking it into
main extension system of State Department of Agriculture under different agro-climatic regions and in real
farming system. Presently the FLDs are mainly conducted through KVKs in all over the country. This is the
mandatory function of KVK to remove lack of knowledge and constraints in the adoption of improved soybean
production technology. Keeping all these views in mind, the present investigation entitled “Study on knowledge
and adoption level of soybean growers through Front Line Demonstrations (FLDs‟) in Ujjain district of M.P.”
For this purpose the data collected on a well prepared interview schedule. through personal interview method
by the investigator. The major findings of the study is majority of the respondents (beneficiaries of FLD
programme and non-beneficiaries) possessed medium level of adoption level. The „t‟ test indicated that there is
a significant difference between scores mean of both the group. Thus, it can be stated that, there is an impact of
FLD programme on the adoption level of the soybean growers.
Rice Value Chain Analysis: Rice Seed Production as a Profitable Agribusiness ...IJAEMSJORNAL
This study explored the rice value chain (RVC) in Nueva Ecija, value additions, found restrictions, and offered to upgrade solutions to improve the competitiveness of the rice industry and specific segments in the RVC using the value chain analysis (VCA) methodology. Farmers, paddy dealers, millers, wholesalers, wholesaler-retailers, and retailers in Nueva Ecija provided primary data. Workshops with stakeholders were also held to validate preliminary findings and identify upgrading strategies. The RVC begins with the provision of inputs for paddy production and concludes with the consumption of milled rice. The RVC is dominated by a traditional multi-layered supply chain with interconnected chain actors consisting of competing farmers, paddy traders, millers, and rice traders in each segment and, frequently, with the involvement of brokers in both paddy aggregation and rice distribution, thereby increasing marketing cost. The major constraints identified in the RVC included high production and marketing costs of paddy and rice due to low yield, high labor and material inputs, and a lack of critical infrastructure and market facilities (e.g., modern mills, dryers, cheap transport, and energy), resulting in high domestic paddy and rice prices and low competitiveness of the entire rice VC. To improve competitiveness, the rice industry should focus on developing and promoting yield-increasing, postharvest loss-reducing, and cost-cutting technologies, as well as those that improve overall RVC efficiency, such as investments in enabling infrastructure and facilities for transport, handling, storage, drying, and milling.
Introduction to seed and seed technologyNSStudents
The Presentation is prepared by the N.S Institution of science, Markapur.
It consists of a basic introduction related to Introduction to seed and seed technology.
The 3rd GRAPAS Conference, held in Bangkok during the Victam Exhibition in April earlier this year attracted up to 130 delegates, many of whom are flour and rice milers, during the course of the day and over the three sessions.
It is report on seat production technology. It sows how the government seed production occur and distributed to the farmers. It based on commercial training that is held in 8th semester of B.Sc. agriculture final year according to ICAR module.
Priorities for DAR-ICRISAT Research Collaborations by Dr Pooran Gaur ICRISAT
Predict the most promising interventions to be made at the farming system level to optimize returns at the economic and ecosystem level and broadening genetic base of breeding populations (enhanced use of germplasm, novel crossing methods to enhance genetic recombination), improving selection efficiency (precision in phenotyping, marker-assisted selection, use of efficient experimental designs).
As part of the seminar held by the International Food Policy Research Institute (IFPRI) under the title of "Fertilizer policy in Egypt and options for improvements".
Delivering new sorghum and finger millet innovations for food security and im...ILRI
Presented by Prof. Masresha Fetene, Principal Investigator, Addis Ababa University at the Launching of Bio-Innovate Programme, ILRI, Nairobi, 16 March 2011.
Regulatory Status of Genome Editing in Vietnam apaari
Regulatory Status of Genome Editing in Vietnam during the Regional Expert Consultation on Gene Editing in Agriculture and its Regulations Technical Session II
3. Contents
Preface
Executive summary 1-2
Major issues in rice research 3-5
Monitoring of field trials
Plant Breeding 6-8
Seed Production 9-12
Agronomy 13-17
Plant Pathology 18-21
Entomology 22-24
Open field days and Exhibitions 25-28
Recommendations 29-30
4. Preface
Rice recently attained most important food and export crop in Guyana and providing employment
to about 100,000 persons. Rice is therefore quite important in buffering the national economy in a
situation when dip in gold and crude oil prices is witnessed worldwide. The entire coastal belt of
Guyana is suitable for rice cultivation. The two rainy seasons and plenty of water, sunlight and
enough fertile land coupled with suitable temperature makes Guyana perfect for rice production.
Rice-Rice cropping system is followed in a year with almost nil green manuring or short duration
legume crop in between two rice crops. Guyana has two drier seasons after harvests of rice crop
and these are used for field preparations to the new crop which is sown on onset of rains. Direct
seeded rice is practiced and level of mechanization is high. Paddy production has witnessed
phenomenal increase in Guyana and currently touching 1,017,741 metric tons (MT) thus yielding
661,532 MT of rice during 2015 year according to estimations on 1 November, 2015. Major chunk
of it, weighing 437,448 MT has been exported to as many as 39 countries. It only became possible
due to untiring efforts and timely decisions taken by rice farmers, policy planners, management,
researchers, extension staff, millers and exporters.
During the present era of information technology and fast moving research, it is important that
research at Rice Research Station, Burma is more relevant to the needs of rice farmers. It may be
achieved with proper planning and to be more focused and by prioritization. Research is no more
conducted for the sake of doing research but to generate robust technologies which are easy to
adopt and economic to rice growers and are eco friendly in nature. The new technologies are used
to generate wealth which in turns pays dividends to different stakeholders in rice industry.
Research is therefore subject to review and auditing at regular intervals worldwide to keep it
relevant and responsive, keeping in view of limited finance and trained human resources. There is
no room for complacency in rice research in Guyana.
Monitoring of field trials and green house experiments is an important activity for ensuring proper
implementation of technical programme. It is to assess the details of experiments like proper
sowing plan, experimental design, meaningful treatments including check, uniform recording of
data etc. for meaningful results and drawing proper conclusions within a given time period of a
trial. Rice Research Station (RRS) of GRDB, Burma has the mandate to generate new crop
protection and production technologies for increasing the rice yields at reduced cost of production
and in eco-friendly manner for the benefit of rice farmers and other stakeholders.
It was my pleasure to monitor the field and green house trials during October-November, 2015 at
RRS Burma. The report compiled is based on the information received from different research
teams and my own observations. The recommendations given are for refining the trials in future.
The support received from management, Chief Scientist, Researchers and Technical Officers of
different research teams in conducting this exercise is duly acknowledged.
D. P. Singh
Coordinator
5. 1
Executive Summary
Rice Research Station, Burma is benefited with the well qualified scientific personnel and
technical officers during recent years. The level of expectations of rice farmers and
stakeholders from research teams is therefore further increased. More and more field
problems are witnessed in recent years in rice cultivation due to increased area and climate
change which is the result of both change in weather pattern and international grain trade.
Rice is major agri commodity for trade in Guyana and therefore issues of phytosanitory,
pesticide residues, storage pests are becoming important in business besides grain quality.
The reduced selling prices, high input costs, problems of excessive or low rains during crop
season, severe attack of insect pests and diseases coupled with high infestation of notorious
weeds like ‘red or wild rice’, new biotypes of blast disease and other pests, lodging of high
yielding popular varieties, deteriorating seed, soil and water quality, lack of knowledge of
newer technologies to farmers etc. have emerged as new challenge new challenges besides,
breeding for export quality rice.
The research trials were critically monitored, discussions were held with research teams
and relevance of expected research results to resolve the problems of rice growers was
analyzed. Good progress was witnessed in the areas of crop improvement, creating new
genetic diversity in rice, seed production, and management of ‘red rice’ in seed production
fields besides successful conduct of farmers’ exhibitions and open field days at RRS Burma
during Autumn 2015. The field experiments were planted well in Entomology but lacking
sufficient insect pest infestation. The field and green house experiments in Plant Pathology
were conducted but escaped proper disease pressure. The field experiments in Agronomy
were conducted but lacking scientific layout and were predominated by private sector
contract research on nutrients. The major recommendations for reprioritization and
repositioning of programmes are:
1. Conduct of field and green house trials in approved scientific design to enable statistical
analysis and meaningful interpretation of data for conclusive results within time frame.
2. Initiation of seed technology wing at RRS Burma to address seed certification
programme and proper labeling of seed packets for ensuring seed quality to farmers.
Grant of one time revolving fund ($10-20 millions) to Seed In charge to facilitate timely
action and further adding in to amount as sale of seed. The part of profit (10%) may be
shared amongst team members of seed and administrative staff involved as incentive for
achieving targets and ensuring better seed quality.
3. Use of farmers’ participatory approach to planning research experiments and varietal
selection.
4. Evaluation of host resistance against diseases and insect pests as well as chemical
control experiments under artificially inoculated conditions and artificially created
epiphytotics at hot spot locations. Use of wide spectrum of biotypes of plant pathogens
6. 2
like blast, brown spots and sheath blight in field and green house. Use of infector lines at
regular intervals in generation advancement block to aid in selection of resistant lines.
5. Conduct of experiments to generate basic information on weeds, insect pests and
diseases.
6. To develop policy for conduct on ‘contract research’ experiment related to chemicals,
biofertilizers etc. of private sector.
7. Handing over of charge of audio visual facilities, digital photo lab, museum, conduct of
exhibition, open field days, press briefings, conduct of field visits and trainings of
farmers etc. to Extension wing of RRS Burma for facilitating researchers to devote more
time and energy in research and seed production. The head of the station may give high
lights of new technologies evolved from RRS Burma during these meeting for the benefit
of farmers and researchers may answer the questions of farmers. The technologies
evolved may be demonstrated by researchers in the front fields of RRS Burma for the
visits of farmers.
7. 3
Major Researchable Issues
Plant Breeding
• Breeding for higher grain yield, better elasticity in new varieties to yield more
consistently in different regions and over seasons to address adversities in weather.
• High quality suiting for meeting the preferences of consumers locally and to those of
importing countries.
• Special rice varieties for minimizing the deficiencies of Zinc and Iron, protein and
low glycemic index for diabetic population.
• Good degree of host resistance to biotic stresses to minimize use of chemicals and
their residues, keeping in view of export of paddy and rice and meeting
phytosanitory standards.
• ‘Farmers’ participatory’ approach in plant breeding and varietal selection.
• Revised guidelines, format and committee to identify and release of varieties
proposed by breeders. The committee may have members from wide areas of
stakeholders and a representative breeder from sister institute. The released variety
may be notified in an official gazette of government. Likewise an old variety may be
de notified.
• Maintenance breeding may be strengthened to keep seed of released varieties pure.
• Rice gene bank may be initiated urgently and passport data of genotypes may be
maintained in computer safely for future use.
• Pre breeding for creation of more genetic diversity in rice may be initiated at RRS
Burma to help developing locally bred rice varieties.
Seeds
• Major strengthening of rice seed sector may be done without further delay and a
dedicated seed technologist supported by farm manager, seed plant engineer and
seed marketing staff, may be made in charge of seed programme.
8. 4
• A revolving fund of $ 10-20 millions may be given to seed programme and it may be
given more autonomy with greater responsibility to farmers for doing seed related
operations, certification, processing, testing, labeling, scientific storage and profit
oriented marketing of seed. The money thus added may be added to revolving fund
and 10-15% of it may be shared by team responsible in seed chain including those
involved in administration as incentive of hard work and ensuring increase in profit.
• Improved seed production technology aiming to increase seed multiplication ratio
and production of quality seeds may be developed.
• Seed testing and certification may be initiated without further delay.
• Training of seed growers in quality seed production may be planned in
collaboration with Extension and research programme.
• The targeted seed replacement rate (25-30%), using seeds of newly released high
yielding varieties may be achieved in next three years. It may easily give a
productivity jump of 10-15% in rice without spending extra on other inputs.
Agronomy
• Integrated weed management with special reference to ‘red rice’.
• Integrated nutrient management, testing and suggested improvement in ‘6P’
practice developed at FLAR and being promoted by Extension programme.
• Agronomy of newly released rice varieties.
• ‘Conservation agriculture’ for cleaner environment, improving soil health and
reducing cost of rice production.
• Narrowing yield gaps between farmers’ fields and potent yield of varieties obtained.
Plant Pathology
• Proper evaluation of status of host resistance in yield trial entries, parental lines and
breeding populations by using wider diversity of major pathogens present in
Guyana, under artificially inoculated conditions and hot spot locations.
• Identification and sharing of confirmed sources of resistance to diseases with rice
breeders.
9. 5
• Detection, maintenance and use of pathogenic variability. Disease survey and
surveillance.
• ‘Pest Risk Analysis’ and ‘field certification’ in association with National Plant
Protection Organization, for satisfying the particular requirements a rice/paddy
importing particular country for example Mexico.
• Integrated disease management
Entomology
• Integrated insect pests management with special reference to paddy bug.
• Evaluation of host resistance and identification of good sources of insect pests
resistance which may be used in breeding for resistance.
• Strategic deployment of varieties in problematic areas of insect pests attack.
• Safe technology for effective pest management in paddy and rice meant for export.
• Research on ‘Pest risk analysis’ in collaboration with NPPO.
• Generation of basic information on major insect pests.
10. 6
Plant Breeding
Plant breeding is the backbone of rice research in Guyana. Already it generated very good
interest in stakeholders and keeping it going is of high importance for rice industry. An
improved variety is the best technology which is most easily adopted by farmers and
investment in needed in this discipline on regular basis since plant breeding is continuous
and long term process. Guyana has already taken edges over other CARICOM countries in
terms of developing good varieties of rice at regular intervals. Following report on
monitoring of research trials in Plant Breeding is submitted:
The plant breeding yield trials, Advanced Yield Trial (AYT) and Observation Yield Trial
(OYT) were visited on 28 Sep. 2015 along with two technical staff of Plant Breeding
department.
Advanced Yield Trial (AYT)
The trial was planted in replicated manner by taking two recently released varieties as
check. One of them was GRDB 10. The trial looked quite good with proper plant population
and uniformity in inter culture operations. The red rice was removed manually and was not
present. Proper layout, design and labeling were followed.
Observation Yield Nursery (OYN)
It is initial trial and acts as feeder trial to Preliminary Yield Trial (PYT)
• The trial has about 60 entries with three checks (GRDB 10, GRDB 12 and GRDB 14)
for comparison. Some of the new entries were showing promise over checks.
• The trial was in one replication only.
• The checks were repeated in each block of about ten entries.
• The randomization of check varieties was defective and may be rectifies in future.
Special observation trial (SOT) for scented / jasmine varieties
The trial looked good having new jasmine/ aromatic rice entries and GRDB 13 (Maria’s
delight) and GRDB 10 as released check.
Segregating block
Visited segregating populations and generation advancing plots on 23 October, 2015 and
witnessed good variability in segregating population in terms of lodging, panicle size,
number of spikelets and number of grains per spikelet.
11. 7
Suggestions for improving field trials
• The display boards in trials need to be made proper using computer and photo
printing on plastic sheet which may be pasted on boards.
• The trial may be kept bit drier to facilitate visit of representatives of farmers in
selecting right kind of varieties on field day. It is to introduce Farmers’ Participatory
Varietal Selection.
View of yield trials and nurseries
12. 8
Diversity in the rice line sheen in generation advancement and selection block
13. 9
Seed Production
Ensuring proper seed security in rice has direct bearing on production and productivity as
well as cost of cultivation. A robust seed production, certification and distribution
programme is therefore the key of success for reaping the early dividends of new varieties.
Visited seed production and breeding fields along with Rice Breeder and Chief Scientist, Dr.
Mahendra Persaud in the forenoon of 11 Sep. 2015.
Seed Production plots: The seed production plots of GRDB 14, GRDB 10 and other
improved varieties looked quite uniform and free from red rice. The rouging of off types
was being done scientifically in presence of technical officers and concerned scientist. The
fallow fields were seen to which were used to allow red rice to germinate followed by deep
ploughing as an integrated weed control practice for red rice.
Fallow fields used at RRS Burma to allow germination of red rice and drooped rice
seeds for seed production plots for management of red rice and off types
14. 10
Rouging of off types in seed production plots
Seed production plots of GRDB 14 looked quite promising and uniform
15. 11
Most popular variety GRDB 10 in Guyana having upright flag leaf with folding leaf
habit during hotter and drier days: quite promising plant type for high yields and
stress tolerance
16. 12
Seed processing
The seed processing unit was also visited and plant was in operation. However bags lacked
important information needed for seed.
Seed processing site
Suggestion for improving seed programme
• The concerned breeder was advised to keep digital photos of seed plots at different
stages as proof of successful red rice management for future use.
• All seed plots may be certified by a team of breeders, agronomists, seed technologist
and plant pathologists which may be from other sister institutes like NAREI, GSA, UG
etc.
• The label for seed passport data may be stretched with bag.
• The seed storage may be improved to avoid excess moisture and high heat.
17. 13
Agronomy
Good agronomic practices are urgency of time in rice industry in Guyana both in grain and
seed production. It may result in lowering the cost of production, efficient use of inputs,
better grain and seed quality, improved soil health, reduced consumption of fossil fuel and
effective weed management. The next jump in rice productivity and narrowing the gap of
potent yield and yields at farmers’ fields may be possible mainly using new Agronomic
practices in Guyana
I visited the field trials of Agronomy along with Ms. Henry Miranda, Technical staff of
Agronomy on 18 Sep. 2015 forenoon after getting consent from Chief Scientist. The HOD
(Agronomy) and Mr. T. English (Technical Officer) were out of station to Berbice Expo, on
the day. In total, there were four field trials. Out of these, three were on the fertilizers/
growth nutrients, doses and their application and one on dates of sowing.
Following observations were recorded:
1. The field trials were mainly to test the products (growth promoters, foliar fertilizers
etc.) of private sector.
2. The experimental design of all four agronomy experiments was not scientifically
proper and therefore may not give quality data and difficult to draw meaningful
conclusions and recommendations. The treatments applied were not in proper
experimental design and were not replicated to reduce the field variations and
experimental errors. The check in trial number two was not kept. It is suggested that
in future the field trials must be planted in proper layout to analyze data statistically
and draw meaningful results.
3. The red rice rouging was not uniformly done in all treatments of trials.
Suggestions for improving field experiments
• The statistical design may be followed in laying the field trials.
• The Agronomy programme is quite important in present context in Guyana and
suggested to be re casted and repositioned. It may better work on issues like
18. 14
integrated red rice management, conservation agriculture, diversification of
cropping system, green manuring, yield maximization, agronomy of new
varieties etc.
• High red rice (5-20%) infestation in farmers’ fields in Mahicony region was
recorded currently, which may further affects the paddy prices negatively. The
experiments may be initiated for management of red rice in seed and
commercial crop without further delay.
• The cow dung/FYM treatments taken may be given low preference, keeping in
view of applicability of such findings in rice and lack of high volumes of cow
manure in Guyana.
• The date of sowing experiment must be relooked keeping in view of practical
adoption of recommendations by farmers. Too late planting is of little practical
use and may not be adopted by farmers and may need more water and
resources.
• The internal quarantine measures for further spread of red rice in non infested
regions and areas may be worked out in Guyana.
• The consultancy projects (private companies etc) need to be discussed
thoroughly and numbers and time period may be minimized, keeping in view of
limited resources at the research station and use of these resources for
addressing other burning issues which are affecting farmers and other
stakeholders.
• Any fertilizer treatment not giving promising results (5-10% increase in yield
and income over current practice) needs to be terminated after two crop season.
• The recommendations of Agronomy may be harmonized with currently
practiced “6P’ recommendations of FLAR and necessary corrections may be
made suiting local conditions.
22. 18
Plant Pathology
The management of rice diseases is quite important and diseases like blast, brown spots,
and sheath blight may pose a serious threat in rice in Guyana keeping in view of very high
acreage under one variety (GRDB10) and adoption of only few varieties by farmers. It may
give uniformity in genetic material of rice and promote mutation in pathotypes of
pathogens of blast and other diseases. Under favorable weather conditions, the new
pathotypes thus developed or introduced from neighbouring countries may devastate the
crop. The Plant Pathology programme therefore is quite important in keeping vigil on new
diseases and pathotypes through regular survey and surveillances, detection of pathogenic
variability present in Guyana, maintenance and use of these in evaluation of host
resistance, identification of resistant genetic stocks and sharing of these with rice breeders,
developing technology for mass production of inocula of pathogens, inoculation and
creating artificial disease epiphytotics in field for evaluation of status of resistance in new
entries in breeding trials, providing data on resistance level to breeder for helping in
promotion of entries in yield trials and release of varieties, use of bioagents, botanicals and
integrated disease management technology in rice.
I visited Plant pathological trials of RRS Burma on 23 October, 2015 along with Technical
Officer of Plant Pathology since Mr. Rajendra Persaud (Rice Pathologist) was out of station.
Following observations were recorded:
• In total there was one trial on “Evaluation of new yield trial (AYT, IYT) entries
against sheath blight under net house conditions. This trial was also conducted in
field besides in net house. I was informed that entries planted in net house were
inoculated with inoculums of sheath blight pathogen once and enough moisture was
kept in the plot to favour disease development.
• All entries including check were almost free indicating lack of proper disease
pressure on test entries in both green house and in field conditions.
23. 19
• The main reason may be due to lack of virulent culture used for inoculation, lack of
repeated inoculation and comparatively dry conditions prevailed in later half of
crop season.
• The second experiment was on “Chemical control of major diseases using foliar
spays and seed treatment”. There were three varieties including ‘Rustic’.
• Trial was not planted in proper experimental design therefore results are difficult
to analyze statistically and meaningful conclusions cannot be drawn.
• The third experiment was on evaluation of yield trial entries against four major
diseases (blast, sheath blight, brown leaf spots and food rot). The trial was
conducted in natural conditions and no artificial inoculations were done. Only traces
of brown spot were only visible and rest of the diseases could not develop.
• The entries therefore may not be evaluation for these diseases in absence of enough
disease pressure and trial may be considered fail to achieve its objectives in current
season.
Suggestions for improving field trials
• Keeping in view of disease escape under natural conditions at RRS Burma it will be
better to search new hot spot locations and possible collaboration may be
established with SNRI ADRON, Nickerei, Suriname to screen material which is
known for high incidence of diseases like brown leaf spots, blast, sheath rot etc.
• Also pathologist may work more to refine the technology for mass production of
inocula of pathogens and its pathotypes and create artificial epiphytotics of diseases.
• The checks for each disease may be identified and glasshouses with thermo and
humidity control may be erected.
24. 20
Evaluation of rice yield trial entries against sheath blight in net house at RRS Burma
Evaluation of status of host resistance against diseases in rice
26. 22
Entomology
Insect pests are quite important in rice both in crop production and storage. These may
cause severe damages in yields and quality of seed and grain and deteriorate rice quality in
storage. The insect pests are also casing problems in rice export and even non acceptance
of rice consignments in some countries like Chile, USA and Mexico. The lack of proper
resistance to insect pests in rice varieties, conducive weather and micro environment of
crop, two crop seasons of rice (Rice-Rice cropping system) and overdependence of farmers
on insecticides to manage insect pests making Entomology research quite important for
rice industry in Guyana.
The visit to field trials of Entomology division of RRS Burma along with Dr (Ms.) Vivianne
Baharally HOD was done on 28 Sep. 2015 (Monday) forenoon.
• The general look of the field and crop stand was good. The trials were planted in
replicated manner by following experimental design. The general red rice
management in trials was quite good and was manually removed.
• The objective of this trial was to identify better and safer insecticide for pest control
in rice. It had 8 test insecticides which were applied as pre sowing seed dresser in
two doses as well as foliar sprays in three doses. The unsprayed plots were kept
check along with one check of recommended insecticide, for comparison.
• This is second crop season of this experiment. A new trial will be planted in next
crop season by taking new set of insecticides.
• The infestation of paddy bug and other insects was not up to the level expected to
test insecticides during current crop season.
• The concerned scientist is intending to take up large plot trial at farmers’ field by
taking two most promising insecticides during next crop season, in collaboration
with Extension staff.
• The field trial on evaluation of new rice entries of yield trials against paddy bug was
having about 97 entries of yield trials of rice. These were planted in single
27. 23
replication of one row. These were for screening again paddy bug and to assess their
level of tolerance.
• The infestation of paddy bug was very low and therefore entries could have escaped
damage and therefore screening was not conclusive.
• The most susceptible check entry was not planted after every 20 entries and around
boarders of screening experiment to facilitate built up of infestation and
comparison.
Suggestions for future
• The built up of high infestation level in a pest is an outcome of presence of enough
insect population at right stage of rice, degree of susceptibility of host and
favourable environment. Any escape or low infestation amounts to failure of trials in
Entomology and no conclusion may be drawn. It is therefore important that
screening of entries against paddy bug may be done under net house conditions by
releasing enough and reared paddy bugs at proper stage of crop for ensuring good
damage to enable to evaluate entries.
• The chemical control trial may have data on economics of treatments and residue
analysis in soil, plant and rice grains for protecting interests of farmers, consumers
and reduce environmental pollution.
• A module for ‘integrated pest management’ may be formulated based on past
findings and may be tested to reduce the cost and doses of chemicals, low residue
and protection off environment keeping in view of export of Guyana rice. Different
components like cultural practices, varieties, date of sowing, bio control agents, and
botanicals may be tested.
• The chemical control trial may be replicated at other hot spot locations, besides RRS
Burma.
• The import of paddy bug resistant genotypes of rice may be explored for testing in
Guyana and their uses in breeding for insect resistance.
28. 24
Field view of Entomology Evaluation against paddy bug
Visit to experiment on chemical control of pests
Looking for paddy bug in experiment
29. 25
Open field day and Exhibitions
I visited Berbice Expo in afternoon and looked the stalls of GRDB and other agriculture
institutions, agro chemicals, spices and agri investment agencies etc. Also attended the field
day at RRS Burma on 7 October, 2015 at RRS Burma in which about 150 farmers, students,
professionals and entrepreneurs were present besides, Hon. Minister of Agriculture,
Permanent Secretary (MOA), Chairman and members of GRDB board as well as staff of RRS
Burma. The field visits were organized for visitors and experiments were explained and
questions posed were answered suitably by scientists and technical officers associated to a
particular programme.
Great interest of farmers and students was seen in breeding trials and exhibits. The private
sector exhibits on farm implements, machinery, seeds, growth promoters, fertilizers,
pesticides etc) participation was a very good example of public private partnership in rice
industry. The cooked rice products and diversified rice products attracted attention of
visitors in exhibits. It was unique opportunity to visitors to get all the research and private
sectors including export and gasification demonstrations in exhibition at one place.
Staff of GRDB at Berbice Expo on 18th Sep. 2015
30. 26
Demonstration of newer crop varieties, technologies by researchers and private
sectors at RRS Burma
32. 28
Assembly of farmers, Hon. MOA, Board members and GRDB staff in auditorium of
RRS Burma
Suggestions for future
• The technologies available for farmers may be told by head of the station and
scientists may answer the questions of farmers.
• The participation of farmers may be increased in planning of field research, seed
production and section of right type of rice variety.
• The conduct of ‘field days’, exhibitions etc may be handed over to Extension
Programme and researchers may interact with farmers.
• The ‘seed day’ may be organized for sale and promotion of seed of newly released
varieties before sowing,
• The gathering of farmers at RRS Burma may be given a wider media coverage.
• More private sector participation may be encouraged.
• The gathering of farmers may be more gender sensitive.
• The demonstration of new implements, conservation technology etc may be done.
33. 29
Overall Recommendations
The overall progress of research and seed production is predominated by breeding
programme. The pace of development of new crop production and protection technologies
from other programmes like Agronomy, Crop Protection and Seed Technology is quite slow
and presently Extension programme is promoting adopted research technology ‘6P’ of
FLAR. The conduct of experimental trials therefore, needs improvement and trials are often
prolonged due to lack of serious efforts on parts of researchers. It is resulting delays and
excess spending in generating technologies. The private sector (Contract research) is
dominated in Agronomy. Keeping in view of deployment of highly qualified scientists in
different programmes in recent years, it is expected that rate of success of experimentation
will improve and priorities may be redefined using farmers’ participatory approach. More
interface meeting between research, extension and seed programme are needed. Following
broad recommendations are given which may be followed in coming crop seasons for
making RRS Burma more vibrant, efficient and responsible for tackling problems of
farmers in timely manner:
1. The station may have strong wings of research, extension and seeds headed by
experienced and qualified scientists.
2. The conduct of field days, seed days, exhibitions, museum, media management and
briefing etc may be handed over to Extension Programme.
3. Likewise seed production except basic seed and maintenance breeding may be
handed over to Seed Programme.
4. The seed Technology lab may be established on priority at RRS Burma and seed sold
must have all seed passport certificate on seed bag.
5. The field experiments have to be designed in consultation with statistician and have
to be planted in valid statistical design.
6. The experiments may be replicated in other locations in major rice growing regions
and testing centres may be strengthened.
34. 30
7. The technical programme of work need to be prepared well in time for next crop
season and results obtained should be statistically analyzed, tabulated in the form of
technical report of season.
8. The All Guyana Coordinated Rice Improvement Programme may be initiated at an
early date and entries of pre coordinated (Station trial and OYN) and coordinated
yield trials (PYT, AYT) need to be tested in other programmes (Agronomy,
Entomology and Plant Pathology) for facilitating promotion of these entries in yield
trials as well as for release proposals.
9. The PYT may be replicated and have two locations to get better G x E effect.
10. The breeding material may be shuttled to other environment for proper expression
of genes and meaningful selections.
11. Keeping in view of emerging problems of important pests like paddy bug, red rice,
brown leaf spots etc. the chief scientist was advised to constitute a teach of technical
/ scientific/ extension personnel to regularly monitor the crop at farmers’ fields in
different rice growing regions and compile the information in the form of rice crop
health newsletter on fortnightly or monthly basis in time bound manner and
disseminating it to different stakeholders, agencies and policy planners including
pasting on GRDB web page. The use of IT tools may be used extensively for this
purpose. The experts may educate the farmers during the season on the timely
management of these menaces using radio, TV, GRDB web site and newspapers.
12. The publication of technical reports may be time bound and at regular intervals for
identification of new technologies on rice production. So far only 2011-12 report is
published and reports of 2012-13 and 2013-14 are pending.
13. The seed production. Seed testing and Contract research (Chemicals, fertilizers)
with private sector may be debated and formalized for generating revenue to RRS/
GRDB and paying some dividends to those involved in these exercises.
14. The Farmers’ participatory approach with gender sensitivity may be followed in
research and seed production.
15. The scientists may be encouraged to submit projects for funding from external
agencies and such project leaders may be given more autonomy in using such
funding.