Wednesday, 27 December 2023

The Year-End National Project Steering Committee of the CSIAP held at MoA

The year-end  National Project Steering Committee (NPSC) Meeting of the Climate Smart Irrigated Agriculture Project (CSIAP) was held at the Ministry of Agriculture recently. The NPSC meeting is chaired by Mr. Janaka Dharmakeerthi, Secretary to the Ministry of Agriculture. The NPSC is set up at the Ministry of Agriculture to take the overall responsibility in executing the CSIAP. The NPSC will consist of key officials of the major stakeholder agencies of the central government, provincial government, private sector and the apex level community organizations mainly to provide policy guidance to the project and to ensure achieving CSIAP’s objectives.

The World Bank Officials, Chief Secretaries of provinces where the CSIAP is being implemented, Heads of Government Departments, Senior Officials of implementing agencies, Project Director and Provincial Deputy Project Directors joined the meeting remotely, and senior officials of the ministry and  CSIAP were also present in this meeting. 

Photograph by Nikeshala Kodithuwaku, PMU, CSIAP

Sunday, 17 December 2023

The Year-End Progress Review Meeting of the CSIAP held with the World Bank

The Year-End Progress Review Meeting of the Climate Smart Irrigated agriculture Project (CSIAP) to assess performance, address challenges, ensure alignment with project objectives and stakeholder expectations and maintain momentum towards the successful completion of the project was held with the World Bank at the Project Management Unit (PMU), CSIAP recently. The CSIAP team led by Eng. R.M.B. Rajakaruna, Project Director.

The World Bank team headed by Dr. Sheu Salau (Senior Agriculture Economist, Task Team Leader), Dr. Athula Senaratne (Senior Agriculture Specialist), Mr. Seenithamby Manoharan (Consultant – Agriculture & Rural Development), Ms. Nadeera Rajapakse (Environmental Specialist), Mr. Shanek Fernando (Social Development Specialist), Ms. Anula Harasgama (Sr. Financial Management Specialist), Ms. Heenaben Yatin Doshi (Sr. Procurement Specialist), Ms. Sithara Atapattu (Consultant – Environment), Mr. Jayantha Kankanamge (Consultant – Social), Mr. Udara Wijeratne (Consultant – ICT), Mr. Sarath Wickramaratne (FAO Consultant – Institutional Development) and Prof. Ravichandran Kannan (FAO Consultant - CSA Specialist ) attended this meeting.

Photograph by Nikeshala Kodithuwaku, PMU, CSIAP

Tuesday, 21 November 2023

DAD receives Rs. 30.31 Mn worth ICT Devices from CSIAP to boost agro-economy

The Climate Smart Irrigated Agriculture Project (CSIAP) handed a range of farm ICT devices worth Rs. 30.31 Mn over to the Department of Agrarian Development (DAD) to conduct training programmes for farmers in 47 Agrarian Service Center areas in 11 districts where the CSIAP is being implemented. The CSIAP’s Project Director Eng. R.M.B. Rajakaruna handed over devices to Hon. Mahinda Amaraweera, Minister of Agriculture and Plantation Industries, secondly, the minister handed them over to Mr. A. H. M. L. Abeyrathna, Commissioner General of the DAD. The event took place at the Ministry this morning (21st).

The Minister of Agriculture and Plantation Industries welcomes the CSIAP's support in procuring these essential devices, which will go a long way in assisting farmers who may need further education and training at the field level to boost the agro-economy.  Devices, totalling 141 individual items, include 47 Multimedia Projectors, 47 Screens and 47 Laptops. 

Under ASC Digitalization programme, the CSIAP has provided two Agrarian Service Centers (ASCs) at Parangiyawadiya (North Central Province) and Weerawila (Southern Province) with 06 desktops, 02 Digital Smart Boards, 02 TVs and 02 Portable sound systems worth over Rs 5.7 Mn as a pilot project early this year.

Mr. Seenithamby Manoharan, Consultant - Agriculture, Food & Rural Development,  the World Bank, Mrs. Lathisha Liyanage, Additional Secretary (Development), Ministry of Agriculture and Plantation Industries and Mr. Chaminda Ekanayake, Commissioner (Development) DAD were also present in this event. 

Photograph by Nikeshala Kodithuwaku, PMU, CSIAP

Monday, 30 October 2023

The World Bank MD and high level delegation visit the first ever FTS at Thirappane

World Bank Managing Director for Operations Ms. Anna Bjerde and Regional Vice-President South Asia Dr. Martin Raiser with the delegation from the World Bank, Asia Development Bank, JICA and USAID visited the Climate Smart Farmer Training School (FTS) in Thirappane yesterday (29th). The FTS was established for framer leaders by the Climate Smart Irrigated Agriculture Project (CSIAP).  The purpose of their visit was to observe how the  FTS  is running to promote Climate Smart Agriculture and assess the progress of the CSIAP. This Farmer Training School will play a pivotal role in training and equipping farmers with hands-on experience in Climate Smart Agriculture (CSA) practices and cutting-edge agricultural technologies. According to the World Bank, the FTS at Thirappane is the first school established in South Asia to promote climate-smart agriculture.

The CSIAP Project Director Eng. R.M.B. Rajakaruna welcomed distinguished guests and presented the progress achieved so far and how the CSIAP moves forward to meet project objectives. Addressing the audience Ms. Bjerde Said the significance of a school for farmers in the region, focusing on climate-smart agriculture. She highlighted the changing weather patterns caused by climate change and how this school is equipping farmers with techniques to enhance productivity and resilience in crop production. She also mentioned three major benefits of this project: the transition to renewable energy, particularly solar power; increased and stable livelihoods, enabling children to access education, including higher education; and diversified and sustainable crop yields, ensuring better nutrition. She expressed pride in the World Bank’s support for this project and emphasised the need for more initiatives like this to address the challenges posed by climate change, both through mitigation and adaptation efforts. She hoped that the project could be sustained by building on the lessons and experiences demonstrating the positive impact on changing the lives and livelihoods of farmer communities.
Farmers who had undergone the three-day residential training programme on  Climate Smart Irrigated Agriculture at the Farmer Training School received certificates during this event. Among those who attended the event were Agriculture and Plantation Industries Minister Hon. Mahinda Amaraweera, State Minister of Finance Hon. Shehan Semasinghe, Former Minister Hon. Duminda Dissanayake, Asian Development Bank Country Director  Mr. Takafumi Kadono, World Bank Country Director for Nepal, Maldives and Sri Lanka Mr. Faris Hadad – Zervos, Country Manager for Sri Lanka and the Maldives Ms. Chiyo Kanda, USAID Deputy Assistant Administrator Ms. Anjali Kaur, JICA Senior Vice President Ms. Sachiko Imoto, Mr. Janaka Dharmakeerthi, Secretary and Ms. Latheesha Liyanage, Additional Secretary (Development) of the Ministry of Agriculture, officials of implementing agencies and CSIAP.

Memories of the World Bank MD and high level delegation's visit to the FTS

Memories of the World Bank Managing Director for Operations Ms. Anna Bjerde and Regional Vice-President South Asia Dr. Martin Raiser with the delegation from the World Bank, Asia Development Bank, JICA and USAID’s visit to the Climate Smart Farmer Training School (FTS), in Thirappane yesterday (29th). The FTS was established by the Climate Smart Irrigated Agriculture Project. 

Thursday, 19 October 2023

The progress review meeting of the CSIAP held at the MoA

 
The progress review meeting for monitoring and discussing the progress of the Climate Smart Irrigated Agriculture Project (CSIAP) that the ministry is overseeing was held this morning at the Ministry of Agriculture (MoA). This meeting is crucial for ensuring that CSIAP’s under the ministry's purview align with its strategic objectives and are carried out effectively.  During this meeting  Ministry assessed the current status of the CSIAP, discussed achievements, and challenges, and made necessary adjustments. This meeting was chaired by Mr. Gunadasa Samarasinghe, Secretary, Ministry of Agriculture with the participation of Ms. Lathisha Liyanage, Additional Secretary (Development), Ms. Dilupa Ambeypitiya, Deputy Director (Development)  and Senior Officials of the MoA.  Eng, R.M.B. Rajakaruna, Project Director, CSIAP attended this meeting with Subject Specialists and Officers of the CSIAP. Please click Images to see more photos of this event.

Photographs by Nikeshala Kodithuwakku

The instruction of 'Agro Bizz' to the CSIAP farming families in the project areas

The 'Agro Bizz' application is introduced to the farmers by  the Climate Smart Irrigated Agriculture Project (CSIAP)  to sell their agricultural products at a fair price by avoiding middlemen. Selected representatives from Hambantota, Monaragala, Kurunegala, Puttalam, Anuradhapura, Kilinochchi, Mullaitivu, Trincomalee Batticaloa and Ampara, where the CSIAP is being implemented, have been trained. In a discussion held between World Bank officials, CSIAP officials and 'Celata Tech' company officials, it has been agreed to provide this application for free to about 70,000 project beneficiary farmers. Accordingly, a series of training programmes for selected representatives from the 11 districts under the project area as trainers have been started. On behalf of 'Celata Tech' Mr. Dinesh Denipitiya and Mr. Ravindra Prasanna conducted training programmes.

Story and Photographs by Nikeshala Kodithuwakku, PMU, CSIAP

Wednesday, 11 October 2023

The CSIAP plans to install 261 mobile elephant electric fencing at a cost of Rs 475m

The Climate Smart Irrigated Agriculture Project (CSIAP) funded by the World Bank has teamed up with the Centre for Conservation and Research (CCR) to install 261 mobile elephant electric fencing or seasonal electric fencing, which could be deployed by farmers at the start of cultivation and removed and stored after harvest, at a cost of Rs 475 million to mitigate the human-elephant conflict in the project area where the CSIAP is being implemented.

In order to reduce the human-elephant-conflict in the project areas,  theses electric fences are installed in the area before starting the cultivation and it will be uninstalled  again after harvesting. The Climate Smart Irrigation Agriculture Project emphasizes that the use of community-based seasonal electric fencing has been shown to be very effective in safeguarding paddy cultivations from elephant depredation. The human-elephant conflict is significant in all the CSIAP’s hotspot areas because the cultivation in the hotspot area is often threatened by wild animals, especially elephants. 

This programme is being implemented in 08 districts of Anuradhapura, Kurunegala, Puttalam, Kilinochchi, Mullaitivu, Trincomalee, Monaragala and Hambantota where the CSIAP is being implemented. Under this project, 261 fences for 1109.3 km covering 77854.8 ha paddy fields in  128 Grama Niladhari Division areas of  34 Agrarian Service Divisions. The estimated budget for this is Rs. 475 million and 18905 farming families will benefit.

On behalf of the CSIAP, the Department of Agrarian Department (DAD) will implement an erecting electric fencing programme and for this purpose, DAD has issued a circular to establish an institutional mechanism.  The fences will be entirely powered by solar energy. This project strives to assist farmers in the project area to protect their crops from wild elephants that frequent the area – often causing heavy damage to paddy and other crops. The Versatile Field Fences are easy to erect and the farmers are taught how to make these by the CCR.

The fences stay up until the harvest is taken. Hen farmers remove them afterwards and free up land for wild animals to eat. Again, erect fences for the next crop season. The massive human-elephant conflict has now climbed to a high level, taking many human lives and elephant deaths annually making Sri Lanka the highest annual elephant deaths and second-highest human deaths due to HEC. In 2019, the human-elephant conflict reached record heights in Sri Lanka with the death of 121 people and 405 elephants.

 With this project, the CSIAP hopes to minimize the destruction of crops by a significant percentage and also diversify crops by the use of abandoned farmland due to elephant crop raiding. The project will be implemented under the guidance of Dr. Prithviraj Fernando and his team at the Centre for Conservation and Research.

Sunday, 24 September 2023

The forthcoming visit of the Managing Director of the World Bank being discussed

 A high-level delegation of the World Bank led by Mr. Faris. H. Hadad-Zervos, Country Director, and including Ms. Chiyo Kanda, Country Manager, Sara Gustafson, Senior Country Officer,  Mr. Asela Dissanayake, Senior Operations Officer and  Dr. Athula Senaratne, Senior Agriculture Specialist, visited the Farmer Training School (FTS) at Thirappane last Friday (22nd) to discuss the forthcoming official visit of Ms. Anna Bjerde, Managing Director for Operations of the World Bank to the FTS. On behalf of the Climate Smart Irrigated Agriculture Project (CSIAP), Project Director Eng. R.M.B. Rajakaruna, Deputy Project Director (PMU and NCP) Mr. H.M.P. Bandara and other senior officials of the CSIAP attended this discussion.

The World Bank Country Director inspects agricultural machinery at the FTS

Mr. Faris. H. Hadad-Zervos, Country Director of the World Bank inspected the agricultural machinery used for training purposes of farmers who are on three-day residential programmes at the Farmer Training School (FTS) at Thirappane last Friday (22nd). Mr. Hadad-Zervos laid the foundation stone for the FTS on 22nd December 2021.

Wednesday, 20 September 2023

Launching the 'AgroBizz App' to sell farmers's products without middlemen

The Climate Smart Irrigation Agriculture Project (CSIAP) introduces a software application called 'Agro Bizz' to around 70,000 farming families belonging to 47 agricultural service division areas affected by climate change in 11 districts located in 06 provinces, where the CSIAP is being implemented, to sell their agricultural products at a fair price by avoiding middlemen.

The absence of a market to sell agricultural products at a fair price by avoiding middlemen is a major problem faced by the farmers in the CSIAP area, and as a solution to this, the project expects to sell agricultural products through an online application called 'Agro Bizz'. When selling farm produce online, payments will also be credited to farmers' accounts via 'Agro Bizz'. A leading software company  'Celata Tech' has invented this 'Agro Bizz' application which can be downloaded onto Android smartphones.

In a discussion held between World Bank officials, CSIAP officials and 'Celata Tech' company officials, it has been agreed to provide this application for free to about 70,000 project beneficiary farmers. Accordingly, a series of training programmes for selected representatives from the 11 districts under the project area as trainers have been started. The CSIAP aims to popularize this application among the farmers by training and appointing the Agricultural Business and Marketing Relations Officers and agricultural Facilitators working in the Provincial Deputy Project Director Offices of the CSAIP and office bearers of  Producer Associations and Producer Societies as representatives.

Selected representatives from Hambantota, Monaragala, Kurunegala, Puttalam, Anuradhapura, Kilinochchi, Mullaitivu, Trincomalee Batticaloa and Ampara have been trained and the 'Agro Bizz' application will be introduced to the farmers by those representatives. Farmers are able to enter the image of their products on this application and information such as the quantity of the products, the time when they can be offered for sale, and the prices expected by the farmers can also be mentioned on this application. Farmers' information, farm information, cultivation information and product information are entered into the 'Agro Bizz' application. The 'Celata Tech' company has already registered product buyers, processing agencies, freight forwarders, consultants, Banks and service providers on 'Agro Bizz' to support CSIAP farmers.

Sunday, 3 September 2023

A Climate Smart Agriculture Field Day in Kilinochchi & Mullaitivu by the CSIAP

 The Agricultural Field Day organized by the Climate Smart Irrigated Agriculture Project (CSIAP) is more than a one-day event; it's a testament to the resilience and dedication of the agricultural community of the area where the CSIAP is being implemented. It is a highly useful event that serves as a nexus for education, innovation, community building, and economic development within the agricultural field of CSIAP farmers who play a crucial role in promoting sustainable agriculture. It connects farmers with their cultivation skills and fosters a profound appreciation for the agricultural sector. Organizing such an event will be an excellent way to bring together farmers, agricultural professionals, and the broader community to share knowledge, showcase innovations, and promote sustainable farming practices.  

Mr. S.M. Saman Bandulasena, Chief Secretary, Northern Province along with Ms. S.Suganthini, Provincial Director (Agricultura), Agriculture Instructors of the respective areas,  Mr. Geroge Babu, Deputy Project Director (Northern Province) , Subject Specialists and Officers of the CSIAP attended this Agricultural Field Day, which is a journey of enlightenment and enrichment in Kilinochchi and Mullaitivu districts. All officials visited.     

  • Thelikarai Village of Poonakary ASC division for Watermelon Field, Thelikarai Tank Rehabilitation, Groundnut Seed Poduction and Harvesting
  • Udaiyarkattu village division for MICHY 1 Chilie Cultivation
  • Jeyapuram of Mulankavil ASC for Groundnut Cultivation with Sprinkler Irrigation   
  • Iyankan Kulam of Thunukai ASC division  for Crop Diversification in Paddy field
  • Karuvelankandal of Oddusuddan ASC division for Parachute and mechanical transplanted paddy field 

This Field Day not only educates and inspires but also underscores the pivotal role that agriculture plays in sustaining our CSIAP farming community and preserving the cultivated land for generations to come. 

Tuesday, 29 August 2023

Contributions made to the Two-Day Workshop on Preparation of CMPs - Day 02

Mr. Sarath Wickramaratne, Consultant of the Worl Bank, conducted the Second Day of the two-day workshop on preparing Cascade Management Plans (CMPs)held at the National Institute of Plantation Management (NIPM), Athurugiriya. Mr. Samanatha Mallawaarachchi, IEC & ICT Specialist and  Mr. Nalaka Attanayake, Monitoring & Evaluation Specialist of the Climate Smart Irrigated Agriculture Project made participants aware of their subjects’ contribution to CMPs.  

Monday, 28 August 2023

Contributions made to the Two-Day Workshop on Preparation of CMPs - Day 01

The World Bank Officials, Deputy Project Directors and Subject Specialists made their contribution to preparing effective and meaningful Cascade Management Plans on the first day of the two-day workshop held at the National Institute of Plantation Management (NIPM), Athurugiriya.

Mr. Sarath Wickramaratne, Consultant, Dr. Athula Senaratne, Senior Agriculture Specialist and  Eng. S. Manoharan, Consultant of the Worl Bank lectured on selected topics such as preparing Cascade Management Plans (CMPs),  Why should the Climate Smart Irrigated Agriculture Project (CSIAP) implement 11 pilot CMPs in 11 hotspot areas commencing from October 2023, and Importance of amalgamating the possible activities of the plan of Water Resources Management for sustainable cascade management. The objectives of the two-day workshop were pointed out by Mr. D. V. Bandulasena, Institutional Development & Capacity Building Specialist (ID&CBS) of the Project Management Unit (PMU).

 Representing six provincial Deputy Directors’ Office of the CSIAP Mr. Upali Rathnayake, ID&CBS, Deputy Project Director’s Office of the North Central Province, Mr. D. M .K. H. Dissanayake, ID&CBS, Deputy Project Director’s Office of the North Western Province, Mr. D. M. L. Bandaranayake, Deputy Project Director of the  Uva Province, Mr. Arulappu George Chandra Babu, Deputy Project Director of the  Northern Province, Dr. R. M. Ariyadasa, Deputy Project Director of the  Eastern Province and Mr. R.P. M. Dissananayeke, ID&CBS and Acting Deputy Project Director of the  Southern Province, commented on the progress of establishing the Cascade Management Committees (CMCs), developing CMPs and planning for facilitating the CMC to implement the CMP.

Mr. N. A. I. U. K. Nissanka, Water Management Specialist, Dr. Janaka Jayawardane -Environmental & Social Safeguard Specialist, Mr. Frank Jayasinghe, Climate Smart Agriculture Specialist and Mr. Christy Perera, Agri-Business & Market Development Linkage Specialist delivered lectures on how do their subjects incorporate into cascade management plans. Subject Specialists, Engineers and Officers of the CSIAP attended this workshop.

A Two-Day Workshop to prepare Cascade Management Plans begins at NIPM

A two-day workshop on preparing 06 pilot Cascade Management Plans (CMPs) commenced today (28th) at the National Institute of Plantation Management (NIPM), Athurugiriya with the participation of Deputy Project Directors and relevant Subject Specialists and Officers of the Climate Smart Irrigated Agriculture Project. Commencing the workshop Eng. R.M.B. Rajakaruna, Project Director, CSIAP made a speech on the role of the PMU in supporting CMPs. Dr. Athula Senaratne, Senior Agriculture Specialist, Eng. S. Manoharan, Consultant and Mr. Sarath Wickramaratne, Consultant, Worl Bank will deliver lectors on selected topics. In addition to that Subject Specialists of the CSIAP will contribute their part to preparing CMPs here.

Recruitment of Staff for the PMU and Southern Province


Friday, 18 August 2023

A Field Day held in Pothuwapitiya, Koskotagolla and Amunukola in Kurunegala

The Agricultural Field Days, which is a  community-driven event, in Pothuwapitiya, Koskotagolla and Amunukola areas of Kurunegala District in the North Western Province conducted by the Climate Smart Irrigated Agriculture Project (CSIAP) provides a window into the world of farming, showcasing the dedication, innovation, and hard work that goes into feeding our nations. Attending an Agricultural Field Day is an enriching and enlightening experience. It not only educates and inspires but also highlights the vital role that agriculture plays in sustaining our communities and our country.

Ms. Lathisha P. Liyanage, Additional Secretary (Development), Ms. Dilupa Ambeypitiya, Deputy Director (Development) of the Ministry of Agriculture alone with officers of Department of Agriculture (North Western), Eng. R.M.B. Rajakaruna, Project Director, Mr. D.M.K. Chandana Dissanayake, Deputy Project Director (North Western Province), subject specialists and officers of the CSIAP have the opportunity to learn about the latest agricultural techniques, technologies, and sustainable practices introduced by the CSIAP. This event offered hands-on opportunities for attendees to immerse themselves in the world of farming and provided a deeper understanding of the hard work and dedication required in the farming profession. Officials visited the tank rehabilitation programme in the area too.

 The Agricultural Field Day is a testament to the resilience and dedication of the agricultural community. It offers a glimpse into the hard work, innovation, and sustainability efforts that shape the future of farming. This event connects people with the source of their food and fosters a deeper appreciation for the agricultural sector.

Friday, 11 August 2023

The CSIAP takes the initiative to develop 53 Cascade Management Plans

The Climate Smart Irrigated Agriculture Project (CSIAP) plans to develop 53 scientific Cascade Management Plans (CMP) based on the issues observed in relation to hydrology, geology, geography, livelihood and economic connections in the command areas of the project. This plan will also take into account the existing and future constructions, the status of the ecosystem, cropping patterns in the rice field and highlands, irrigation management issues, and the command area connections.  A new set of maps developed based on this information is used in the cascade profile.

In order to execute CMPs, the CSIAP establishes 53 Cascade Management Committees (CMC) in the Districts of Kurunegala, Puttalam, Anuradhapura, Polonnaruwa, Kilinochchi, Mullaitivu, Trincomalee, Batticaloa, Ampara, Monaragala, and Hambantota in the six provinces where the CSIAP is being implemented. The CMC consists of beneficiaries of the cascade and officers representing different agencies to jointly manage the natural resources of forest, soil, water and land.

A special meeting chaired by Mr. Gunadasa Samarasinghe, Secretary, Ministry of Agriculture, to discuss the establishment of CMCs and Development and Implementation of CMPs was held yesterday (10the) with the participation of Dr. Sheu Salau, Task Team Leader (TTL) of the CSIAP(joined remotely), Athula Senaratne, Senior Agriculture Specialist, Mr. S. Manoharan, Senior Consultant, Mr. Sarath Wickramaratne, Consultant, World Bank, Ms. Lathisha Liyanage, Additional Secretary (Development), Ms. Renuka Rathnayake, Director (Development), Eng, R.M.B. Rajakaruna, Project Director, Subject Specialists and Officers of the CSIAP. The first CMP written based on Babawa Cascade in Hambantota was handed over to the Secretary of Agriculture. Please click Images to see more photos of the event.

Photographs by Nikeshala Kodithuwakku, PMU, CSIAP

Recruitment of 05 Agriculture Facilitators for Northern Province

Saturday, 22 July 2023

A two-day refresher residential workshop to reinforce the skills and knowledge

The Climate Smart Irrigated Agriculture Project (CSIAP) organized a two-day refresher residential workshop on using the existing account package effectively and efficiently from 20th to 21st of this month at the Project Management Unit (PMU). This training was designed to reinforce the skills and knowledge of the CSIAP Staff working in the Account Division in PMU and the CSIAP’s six provincial Offices. The goal of refresher training is to help the CSIAP Staff to maintain their skills and stay current with industry standards and best practices.

 Starting the Training Programme, the CSIAP’s Project Director Eng. R.M.B. Rajakaruna explained the workshop's objectives and  Mr. T. T. Dhayalan, System Administrator, Soft Vision Technologies (PVT) Ltd conducted the training.

Photographs by Nikeshala kodithuwakku

Wednesday, 19 July 2023

The 10th NPSC meeting of the Climate Smart Irrigated Agriculture Project held

 The 10th National Project Steering Committee (NPSC) meeting of the Climate Smart Irrigated Agriculture Project (CSIAP) led by Mr. Gunadasa Samarasinghe, Secretary, Ministry of Agriculture was held yesterday  (18th) at the Ministry of Agriculture. The NPSC meeting provides policy guidance to the project and ensures achieving CSIAP’s objectives. The overall project oversight is the responsibility of the NPSC meeting established in the Ministry of Agriculture.  Chief Secretaries of six provinces where the CSIAP is being implemented, Heads of Departments of Implementing Agencies working with the CSIAP, other senior officials of the Ministry of Agriculture, Eng. R.M.B. Rajakaruna, Project Director and  Deputy Project Directors, Subject specialists  of the CSIAP,  the World Bank Task Team, and other government officials joined this meeting.

Photograph by Nikeshala Kodithuwakku, PMU, CSIAP

Thursday, 13 July 2023

A special meeting to discuss the progress of the CSIAP held at MoA

A Progress Review Meeting to discuss the  current progress and future activities of the Climate Smart Irrigated Agriculture Project was held at the Minister of Agriculture yesterday (12th). Senior Officials of the ministry and the CSIAP attended this meeting which was chaired by Mr. Gunadasa Samarasinghe, Secretary, Ministry of Agriculture. The CSIAP team was led by Eng. R.M.B. Rajakaruna, Project Director. Please click Images to more photos of the meeting

Photographs by Nikeshala Kodithuwakku, PMU, CSIAP

Friday, 7 July 2023

A scientific study on evaluating the cost-effectiveness of Paddy seedlings using mechanized transplanters climatically vulnerable hotspot areas in Sri Lanka


Authors:
Eng. R.M.B Rajakaruna – Project Director, CSIAP
Mr. Frank Jeyasinghe – Climate Smart Agriculture Specialist (PMU), CSIAP
Ms. Sharmila Shanmuganathan – Gender Development Officer (PMU), CSIAP 

1.     Introduction
In most parts of Asia, paddy is transplanted by hand into puddled soil, which is labour-intensive and requires large volumes of water. Puddling helps to control weeds and retain water in the rice fields. However, it results in aggregate breakdown and destruction of macropores (Voase-Ringrose et al., 2000), besides being costly and time-consuming (Chauhan et al., 2012).

 Labor shortages across Asia are making manual transplanting untenable in paddy farming. Manual transplanting rarely provides uniform row spacing or optimal rice plant populations (Behera et al., 2009). Shortages of labor increase the risk of delayed transplanting which causes paddy yield loss.

Mechanical transplanting of paddy is the process of transplanting seedlings raised in a dappok nursery using a self-propelled transplanter. Using mechanized rice transplanting reduces the cost of crop establishment, saves labor, ensures timely transplanting, and attains optimum plant density that contributes to high productivity (Manjunatha et al., 2009).

However, farmers are familiar with direct seedling and parachute seeding methods in paddy land. The above-mentioned factors have stimulated interest in mechanical transplanting. Therefore, CSIAP is trying to assess the effectiveness of the three types of plenty seedlings in the climatically vulnerable hotspot areas in Sri Lanka. Those methods are (a) direct seedling, (b) parachute seedling, and (c) using the transplanter for paddy seedlings. 

2.    The process to use the paddy transplanter
Paddy seedlings are first grown in a dedicated nursery area, usually in a tray or raised beds, where they are nurtured until they reach the desired stage for transplantation. Then, the paddy field is prepared by ploughing and, levelling with water. This creates a suitable environment for the transplanting process. After that, the mechanized transplanter is brought to the field, and its settings are adjusted according to the desired planting density, spacing, and depth. The machine is typically operated by a motor. Then, the paddy seedlings are loaded into the transplanter's seedling tray from where they are automatically fed into the planting mechanism. As the transplanter moves forward, it plants seedlings on the rows in the field using specialized planting devices. The seedlings are then placed in rows at the desired spacing and depth. After the seedlings are transplanted, the field may be filled to the desired water level, depending on the cultivation method and growth stage of the crop.

3.     Research Problem
The research problem is smallholder farmers have a negative perception of the power-operated transplanters which are reducing the yield if they used the transplanter, the reason they say that space between two rows is higher (12”) and is not recommended according to the Department of Agriculture. So, CSIAP wanted to practically prove by doing the demonstration plots whether paddy yield is increased or not by using the transplanter. So, CSIAP scientifically tested three different paddy seedling methods which are direct seedling methods, parachute methods, and transplanter methods as the demonstration in the farmers' demonstration plot to prove and change their attitude towards the transplanter.

 The main reason is even though the row transplanting of paddy seedlings using power-operated transplanters is cost-effective and helps to increase the paddy yield, it is not familiar to the smallholder farming community in the climatically vulnerable hotspot area and has a negative perception of the reduction of yield in their paddy land. Therefore, the World Bank-financed Climate Smart Irrigated Agriculture Project (CSIAP) is trying to familiarize the transplanting of paddy seedlings using power-operated transplanters to smallholder farmers by doing the demonstration plot in smallholder farmer’s paddy land in 44 Agrarian Service Centers divisions and prove the effectiveness scientifically. 

4.    Research Objective
The objectives of this research are to evaluate the cost-effectiveness of the paddy transplanter used at the demonstration plots of the farmer’s paddy land in climatically vulnerable hotspot areas in 44 ASC divisions in Sri Lanka. The evaluation considered a comparison of different types of paddy planting methods and the performance of the mechanical transplanter in the small-scale paddy lands in climatically vulnerable hotspot areas in Sri Lanka.

Further, CSIAP tried to familiarize the row transplanting of paddy seedlings using power-operated transplanters as one of the main CSA technologies in paddy cultivation to the smallholder farmers and help to direct beneficiaries to control weeds using power-operated weeders and minimize agrochemical usage and reduce the cost of production on paddy farming.

 5.    Research Methodology and Study Area
CSIAP has taken steps to provide power-operated mechanized transplanters (with 06 rows planting base) to the 44 ASC divisions, covering whole project implementation areas except Southern Province. Each ASC has dispatched 04 numbers of transplanters with power weeders and nursery trays. As a strategy to popularize these transplanters among the beneficiaries, the project carried out a paddy transplanting demonstration program during the Maha season 2022/23 with selected beneficiaries in the project area by using mechanized transplanters.  

 The main scope of this program is to introduce farm mechanization as a strategy of CSA practice and technology and convince its benefits for smallholder farmers Meantime, CSIAP implemented the demonstration program in 44 ASCs covering various Agro-climatic regions in climatically vulnerable hotspot areas in 11 districts and 06 provinces.

 In addition, demonstration programs were carried out on 66 acres of paddy lands in 141 nos demonstrations with the participation of 132 smallholder farmers who live in the project area. Also, at the end of the cultivation program project carry out crop cutting survey in every demonstration plot and assess the effectiveness and impacts of using paddy transplanters compared with the yield of control plots, which are planted by following direct seeding and parachute planting methods. 

 Activities involved during the demonstration intervention
1.     Establishment of 03 paddy planting plots (1/2 ac at each) in each ASC (01-transplanting plot, 01 parachute cultivation plot, and 01 direct seeding plot)        
2.     Carry out capacity-building programs for the beneficiaries with the intervention of DoA
3.     Provision of seed paddy for all plots on free of charge basis
4.     Provision of chemical fertilizer for all plots on free of charge basis
5.     Provide 8225 numbers of parachute trays for relevant beneficiaries on free of charge basis (175 Nos trays per farmer)
6.     Carried out crops cutting survey to cover all plots (132 numbers demonstration plots)

5.1.         Province-wise transplanting demonstration plots extent during the Maha Season Cultivation in 2022/23


   
5.2.        Materials used for the transplanting demonstration plots during the Maha Season Cultivation in 2022/23

6.    The finding of the Study
  6.1.        Key findings of the study
The paddy transplanter demonstration program was carried out during the Maha season cultivation program in 2022/23 in 44 ASC divisions in climatically vulnerable hotspot areas of 11 districts and 06 provinces in Sri Lanka.

·       The yield increase of the mechanized transplanting method is ranging from 19 - 46% (Average increase – 29.08%) when compared to the direct seeding method.

·       The seed paddy requirement for Mechanized transplanting is 63% less compared to the direct seeding method. It leads to saving Rs. 4680/- per acre.

·       When the use of Mechanized weeders for weed control, helps to curtail weed control costs by 60% and it leads to enhancing the growth of paddy plants through vigorous tillering as a matter of improving soil physical properties.

         6.1.1.   The results are presented for the three and half month (3 ½) paddy varieties after the crop cutting survey below the attached table:

    6.1.2.   The results are presented for the four and half month (4 ½) paddy varieties after the crop cutting survey below the attached table:


 6.2.       Benefits of the power-operated mechanized transplanters

  •  The positive aspects of transplanting paddy seedlings using mechanized transplanters are numerous.

·       Mechanized transplanting allows for faster and more efficient planting of paddy seedlings, covering larger areas in less time compared to manual labor. This leads to decrease plant establishment costs.

·       Manual transplanting of paddy seedlings is labor-intensive and can be physically demanding. By using mechanized transplanters, farmers can reduce their dependency on manual labor, save on labor costs, and alleviate labor shortages during peak transplanting seasons.

·       Mechanized transplanters offer precise control over planting depth, spacing, and seedling placement. This results in better crop establishment, uniform growth, and optimal plant density, leading to higher yields as a result of increased tillering of plants.

·       Mechanized transplanting allows farmers to transplant seedlings within a shorter timeframe, as they are not constrained by the availability of manual labor. This can help them align their planting schedules with optimal weather and field conditions with maximum utilization of rainwater.

·       Mechanized transplanting ensures consistent spacing between seedlings, promoting uniform growth and minimizing competition for resources such as water, nutrients, and sunlight. This facilitates better nutrient uptake, reduces weed growth, and improves overall crop health.

·       Embracing mechanized transplanting represents a shift towards adopting climate-smart agriculture practices and technologies in Sri Lanka. It encourages the use of advanced technology, improves efficiency, and supports sustainable agricultural development, despite the labor shortage as one major prevailing issue in agriculture.

 7.    Weaknesses of the Transplanters
While there are several positive aspects of transplanting paddy seedlings using mechanized transplanters, it's important to consider the potential challenges or negative aspects associated with this approach.

·       Mechanized transplanters can be expensive to purchase or lease, especially for small-scale farmers who may have limited financial resources. The initial investment cost could pose a barrier to adoption for some farmers.

·       Access to mechanized transplanters may be limited in certain areas or among smallholder farmers. Lack of availability or limited access to these machines could prevent widespread adoption, particularly in remote or economically disadvantaged areas.

·       Operating a mechanized transplanter requires technical expertise and training. Farmers may need to invest time and resources in training operators or hiring skilled individuals, which could be challenging for those with limited access to training programs or qualified personnel.

·       As mechanized transplanting reduces the need for manual labor, there is a possibility of job displacement for agricultural workers who were previously involved in manual transplanting. This could have social and economic implications, particularly in regions where agriculture is a significant source of employment.

 8.    Remedies to overcome the issues

·       To overcome the above said weaknesses, CSIAP provided the transplanter to the 47 ASC divisions in climatically vulnerable hotspot areas in Sri Lanka

·       Smallholder farmers can get the services of the paddy transplanter for a reasonable rate from their ASC divisions.

·       CSIAP is conducting the CSA practices and technology training programs in the Eco-friendly Climate Smart Farmer Training School, Thirapane. Therefore, farmers can get technical knowledge.

·       Row transplanting can be done by using this mechanized transplanter which helps to use the power weeded for weed control and curtail the weedicide cost by 60%.

·       When compared to direct seeding, seed paddy requirements for the seed paddy transplanter is very low. It needs 15kg per acre which is 37% compared to the direct seedling seeds requirement (40kg per acre).

 9.    Conclusion

·       Mechanizing the transplanting of paddy can decrease labor requirements and costs for crop establishment. Most importantly it helps to increase the yield and help to control the weeds in the paddy land.

·       The findings of the study are mechanized transplanting offers several advantages over traditional manual methods which are increased yield productivity and efficiency, labor savings, and cost reduction, and improved planting accuracy, uniform crop growth, adoption of climate-smart agriculture practices and technologies.

·       Transplanting of paddy seedlings according to the rows is the most important activity to control weeds without spending on agrochemicals, which leads to reduced production cost, and decrease chemical contamination.

·       Since the transplanter needs a low quantity of paddy seeds per acre. It leads to minimizing the dependency on seeds paddy for paddy cultivation.

·       As per the crop cutting results, it is explicit that mechanized transplanting gives good results for the 31/2 – 4 month paddy varieties.

·       Hence, this transplanter is very useful the higher age paddy cultivation farmer in climatically vulnerable hotspot areas. Also, this mechanized transplanter can be recommended to popularize among the smallholder farming community.  

Acknowledgement:
We would like to acknowledge and give our special thanks to staff in Provincial Deputy Project Director’s Offices, CSIAP for their continuous support when undertaking this research. This paper and the research behind it would not have been possible without the exceptional support of them.