BARI (Bangladesh Agricultural Research Institute) is the largest multi-crop research institute conducting research on a large number of crops, such as cereals, tubers, pulses, oilseeds, vegetables, fruits, spices, flowers, etc INTRODUCTION: BARI (Bangladesh Agricultural Research Institute) is the largest multi-crop research institute conducting research on a large number of crops, such as cereals, tubers, pulses, oilseeds, vegetables, fruits, spices, flowers, etc. Besides variety development, this institute also carries out research on non-commodity areas, such as soil and crop management, disease and insect management, irrigation and water management, development of farm machinery, improvement of cropping and farming system management, post-harvest handling and processing, and socio-economics studies related to production, marketing, and consumption. Location of BARI: The Institute has its central research station at Joydebpur about 35 km north of Dhaka. The research compound of the central Station is spread over 176 hectares of land of which 126 hectares are experiment fields. Function of BARI: The institute functions through three major wings, such as Research Wing, Support Service Wing, and Training and Communication Wing. The Research Wing executes and monitors all the research programmes through 7 special crop research centres, 14 research divisions, 6 regional research stations and 28 sub-stations. The Support Service Wing provides all the logistic supports in research management as well as personnel management. This wing is also responsible for infrastructural development, financial management and general procurement of the institute. The Training and Communication Wing performs its responsibilities by conducting and offering training to the scientists, extension workers, and farmers. Dissemination of information through publications and transfer of technologies through commodity distribution, and human resource development also fall under the discretion of this Wing. The Institute has established 6 regional research stations in 6 agro-ecological regions of Bangladesh to develop new technologies for specific location. The regional stations are located at Ishurdi, Jamalpur, Jessore, Hathazari, Rahmatpur, and Akbarpur. Besides these the Institute has 28 research stations including 3 hill research stations (Khagrachari, Ramgarh and Raikhali) that function under the technical guidance of the adjacent regional station. BARI has 7 crop research centres, 4 of which are at the central research station at Joydebpur. These include Tuber Crops Research Centre (TCRC), Plant Genetic Resource Centre (PGRC), Oilseed Research Centre (ORC), and Horticulture Research Centre (HRC). The Wheat Research Centre (WRC) is situated at Nashipur, Dinajpur, while the Pulses Research Centre is located at Ishurdi, Pabna and Spices Research Centre (SRC) at Shibgonj, Bogra. Apart from these, the Institute Conducts technology validation trials and farmer's field trials through its On-farm Research Division (OFRD) in 9 Farming System Research (FSR) sites and 72 Multi-location Testing (MLT) sites spread over the country.
Bangladesh Agricultural Research Institute (BARI) an autonomous organisation under the Ministry of AGRICULTURE, responsible for conducting research on all crops except rice, jute, sugarcane, and tea for which there are separate institutes. It was established in 1908 as Agricultural Research Laboratory, Bengal at Dhaka. The laboratory was under the Bengal Department of Agriculture which was created in 1906. After the partition of India in 1947, the Bengal Department of Agriculture became the East Pakistan Department of Agriculture with two wings, one for research and the other for extension. The laboratory formed the research wing. In 1968, the Department of Agriculture was bifurcated into two separate directorates, namely, the Directorate of Agriculture (Extension and Management), and the Directorate of Agriculture (Research and Education). The latter was converted to Bangladesh Agricultural Research Institute (BARI) in 1976. During the early sixties, BARI was shifted to Joydebpur to allow rebuilding of its research facilities. The shifting was completed in 1980. The original laboratory buildings constructed in 1908 and located on Khamar Road near Farmgate in Dhaka, now house several other offices. The research farm of the original laboratory covered an area of about 182 ha.
Bangladesh Agricultural Research Institute, Gazipur
ORIGIN OF BARI:
ACHIEVEMENT OF BARI: The achievements of BARI are given below:
COMMODITY ACHIEVEMENT:
Cereal crops Vegetable crops
Fruit crops Flower crops Pulse crops Oilseed crops Spice crops Tuber crops
CEREAL CROPS: WHEAT VARIETIES:
BARI GOM- 21
VEGETABLE CROPS: VEGETABLE VARIETIES:
BARI Tomato- 8
BARI Begun-6 (Bringal)
BARI Begun-1 (Bringal)
BARI Begun-5 (Bringal)
TASAKI Mula-1 (Radish)
BARI Mula-2 (Radish)
FRUIT CROPS: FRUITS VARIETY:
Kazi Peara (Guava)
BARI Peara -2 (Guava)
Shahi Pepe (Papaya)
BARI Aam-1 (Mango) BARI Aam-2 (Mango)
BARI Litchu-2 (Litchi)
BARI Litchu-3 (Litchi)
BARI Aam-4 (Hybred)
BARI Litchu-4 (Litchi)
FLOWER CROPS:
BARI Orchid -1
BARI Gladiolus -1
PULSE CROPS:
BARI Masur-1 (Utfala)
BARI Masur-2 (Utfala)
OILSEED CROPS:
Tori-7 (Tori rape)
BARI Sarisha-7 (Rapeseed)
SPICES CROPS:
BARI Garlic-1
BARI Sarisha-8 (Rapeseed)
SPICES CROPS:
BARI Iumaric-1
BARI Iumaric-3
BARI Chilla-1
TUBER CROPS:
BARI Alu – 1 (Potato)
BARI SP-2 (Sweet Potato)
BARI Alu – 7 (Potato)
BARI SP-3 (Sweet Potato)
NON COMMODITY ACHIEVEMENT
Irrigation and Water Management Farm Machinery Vertebrate Pest Management Biotechnology Post harvest Soil Fertility and Soil Management On-farm Studies Wheat Technology Oilseed Technology Agronomy Pathology Pulse Pilot Project
CURRENT RESEARCH PROGRAMME:
Research Programme For 2008-09
Wheat Research Centre Wheat Improvment Variety development Development of high yield potential variety (15 experiments) Development of Late Heat tolerant Genotypes (5 experiments) Development of BpLB Tolerant Genotypes (2 experiments) Development of Sterility Tolerant Wheat Variety (5 farmers' fields) Development of Abiotic Stress Tolerant Variety (3 experiments) Breeding for Nutrient Use Efficiency (2 experiments) Collaborative studies (17 experiments) Varietal Differentiation Through Molecular Approach (2 experiments) Participatory Wheat Improvement (3 experiments)
Development of Durum and Triticale Variety (6 experiments) Crop and Soil management Crop Management in Resource Conservation (3 experiments) Crop Management in Rice-Wheat System (13 experiments) Maintenance Breeding and Seed Production Maintenance of first and Second year lines (1experiments) Breeder Seed Production (1 experiments) Oilseeds Research Centre Varietal Development Rapeseed and Mustard Germplasm colleciton, eevaluation & maintenance, hybridization, generation advance, population improvement, inbred developmeent, yield trials and molecular characterization (36 experiments) Sesame Germplasm colleciton, eevaluation & maintenance, hybridization, generation advance, screening genotypes under water logged condidtion and yieldd trials (10 experiments) Groundnut Germplasm collection, evaluation & maintenance, hybridization, generation advance, screning genotypes in charaeas and yield trials (14experiments). Soybean Germplasm collection, Evaluation & maintenance, hybridization, induced mutation and yield trials (9 experiments) Sunflower ermplasm collection, evaluation & maintenance, composites/synthetics maintenance, inbred development and yield trials (8 experiments) Oil palm Germplasm collection, evaluation & maintenance. Linseed, Niger, Safflower Germplasm maintenance. Crop and soil management Performance of intercropping groundnut with vegetables, weeding of groundnut and groundnut oriented cropping pattern (3 experiments). Disease management Screening of different lines of rapeseed mustard, groundnut and soybean against Alternaria blight, leaf spot and rust, soybean mosaic virus, respectively (3 experiments) Germplasm evaluation of rapeseed-mustard, groundnut, sesame and soybean against leaf blight, leaf spot, rust and YMV, respectively (4 experiments). Technology Transfer On-farm adaptive trial (Variety development) Adaptive trials of advanced lines of rapeseed & mustard, sesame, groundnut & Soybean
(4 experiments) Seed Production and Distribution Nucleus seed production of rapeseed & mustard, sesame, groundnut, soybean & sunflower. Breeder's seed & Truthfully Labeled Seed (TLS) production of rapeseed & mustard, sesame, groundnut, soybean, sunflower& minor oil seed crops. Pulses Research Centre, Gazipur (I) Programme Area: i. Varietal Development programme of lentil (No. of expt. would be conducted 13), mungbean(No. of expt. would be conducted 9), grasspea (No. of expt. would be conducted 2), blackgram (No. of expt. would be conducted 8), chickpea(No. of expt. would be conducted 12), cowpea(No. of expt. would be conducted 3), field pea (No. of expt. would be conducted 3), fababean (No. of expt. would be conducted 4), and pegion pea (No. of expt. would be conducted 1) ii. Crop and Soil management programme (No. of expt. would be conducted 15) iii. Disease management programme of pulse crop (No. of expt. would be conducted 31) iii. Insect management of pulse crop (No. of expt. would be conducted 4) Tuber Crop Research Centre Hybridization and selection of potato (8 experiments) Introduction and selection of exotic potato varieties ( 4 experiments) Variety development for specific purpose ( 8 experiments) Insect Pest Management Insect pest management of potato, sweet potato and taro against aphid, Cut worm control, resistant varieties and chemicals (4 experiments). Tissue culture and Seed production Meristem isolation, in-vitro multiplication, micro/mini tuber production, Protoplast fusion, DNA Fingerprinting (SSR & RAPD),Mini storage tuber Prod'n, Alternative Shoot regeneration (12 experiments). Post - Harvest Technology Storage behavior and processing of Potato, sweet potato and aroids (4 experiments) Transfer of Technology Training 540 farmers, 40 SAAO and 10 NGOs, 50 SA, 80 SSA's, 220 Scientists & Extension Officials will be trained (18 training) 15 field days, 250 on-farm trials and Adaptive trial of potato Adaptive trial of sweet potato Adaptive trial of aroids
Horticulture Research Centre Olericulture Varietal improvement of solanaceae and crucifereae vegetables (13 experiments) Varietal imprvement of cucurbitaceae vegetables (35 experiments) Varietal imprvement of legumes and others vegetables (17 experiments) Hybrid development of vegetables (11 experiments) Production technology of vegetables (6 experiments) Fruits Variety Development (61 expts.) Propagation Techniques (18 expts.) Cultural Management (16 experiments) Maintenance of germplasm (2 experiments) Physiological Studies (3 experiments) Disease Management (13 experiments) Insect Pest Management (5 experiments) Soil and Water Management (8 experiments) Post-harvest Management (8 experiments) Socio-Economic Studies Micro propagation (2 experiments) Technology Transfer Orange Development Project (20 experiments) Floriculture Varietal development of flower Collection, evaluation and maintenance of different flower and ornamental crops (3 expts.) and hybridization of adenium Propagation Propagation on african violet, ground orchid and palms (3 experiments) Cultural Management Potting media on euphorbia (1 expt.) plant spacing on aster, lily and gypsophila (3 experiments) Insect management Survey on pest status of rose and gerbera Post harvest technology Vase solutions on vase life of tuberose Socio-economic studies Agro-economic analysis of gerbera Spices Research Centre Variety development Collection, evaluation and characterization of onion, Chilli, Ginger, Turmeric, Cumin and different plantation spices germplasm. (9 Experiments) Nutrient management Response to nitrogen, phosphorus, potassium, sulfur and Zinc on growth and yield of kharif onion, garlic, chilli, turmeric and ginger
Cultural management Effect of different cultural practices like weed control, plant spacing, bulblet size, planting depth, leaf cutting, mulching etc. on the yield and quality of onion, turmeric, ginger, fenugreek and fennel. Insect and disease management Seasonal fluctuation of thrips, survey and documentation of damages caused by pests, insect management, biology in different spices crops (onion, chilli, garlic and ginger). (5 Experiments) Seed Production Technology Effect of GA3, hormone and chemicals on uniform flowering and spouting in summer onion seed production.(3 Experiments) Effect of storage duration on scape production in summer onion. Post Harvest Management Post harvest management and processing technique of onion, ginger, chilli and turmeric. (7 experiments) Socio-Economic Impact analysis of summer onion in Bangladesh. Status of existing spices crop in farmers field at northern region of Bangladesh. Plant Genetic Resource Centre Plant Genetic Resources Conservation and Management Survey and collecting plant genetic resources for food and agriculture (PGRFA) Morphological characterization Screening of Soybean, Mustard, Muskmelon, Sweet gourd, Cow pea and Ash gourd germplasm against salinity Morphological characterization of Mustard Characterization of okra and evaluation against YMV Characterization of BARI released vegetable varieties Regeneration and safety duplication of regionally prioritized crop collection Grasspea, Lentil, Chickpea, Mungbean, Blackgram and Millets Characterization and evaluation of Grass pea germplasm Screening of Chilli germplasm against growing season Characterization of Amaranth germplasm Molecular characterization Morphomolecular characterization of Pulse crops and Mango DNA fingerprinting of Wheat and Eggplant Molecular characterization of BARI released Tomato varieties using SSR marker Germplasm conservation and regeneration Conservation of germplasm in active and base collection Monitoring of active and base collection On farm conservation and community genebank
Biotechnology in PGR collection, conservation, utilization and documentation Protocol for in vitro germplasm collecting techniques Protocol for in vitro and cryopreservation of germplasm Documentation of PGRFA Database development for germplasm documentation Plant Breeding Division Collection, maintenance (2 experiments) Development of Inbred Lines (5 experiments) Evaluation of inbred lines (4 experiments) Production of experimental hybrids ( 2 experiments) Evaluation of experimental hybrid (9 experiments) Maintenance and seed increase of inbred lines (4 experiments) Seed production of hybrids (3 experiments) Evaluation of Open pollinated varieties(3 experiments) Biochemical Analysis and Molecular Breeding (6 Expts) Stress Breeding (3 experiments) Production Technology (8 experiments) Technology transfer activities (On-farm trials, demonstrations, Field day and trainings) Barley & Millet improvement Collection, hybridization, selection and Breeder seed production (10 experiments)
BHAWAL NATIONAL PARK Bhawal National Park was established in 1982 and is located in Gazipur, Dhaka Division of Bangladesh, approximately 40 km north of Dhaka city. Its purpose is to protect important habitats as well as to provide opportunities for recreation. It covers 5,022 ha. The most common flora is the unique coppice sal forest. Also, most of the forest has been denuded and is now occupied by forestry companies or displaced people. Most of this area was covered by forests fifty years ago and the dominant species was Sal (Shorea robusta). Illegal deforestation is reducing the area of the forest and new trees and Sal Forest a forest type dominated by a single plant species, commonly known as Sal tree (Shorea robusta). It belongs to the category 'Tropical Moist Deciduous Forest'. The distribution of Sal forests is controlled by the conditions of topography, geology, and soil. The park has 220 plant species, •
43 different tree species,
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19 shrubs species
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3 palms species
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27 grasses species
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24 vines species
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104 herb species
The SOILs of the Tract have developed largely on MADHUPUR CALY; which are nutrient poor and somewhat acidic. They are red or brown in colour. In most places the changes from the floodplains to the Tract is quite sharp, but in some places the floodplain soils overlie the gently inclining edges. The Madhupur Tract is extensively dissected, with narrow or broad valleys extending deep into the level landscape and the DRAINAGE PATTERN is clearly dendritic. The higher level lands are known as CHALA and the valleys are called BAID. The valleys are cultivated with boro rice in the dry season by impounding the STREAMs for irrigation. At this time the fields are dry in the uplands except where cultivated with SUGARCANE. Many of chala are well known for their jackfruit gardens. Large quantities of JACKFRUIT are shipped out to other parts of the country from April to June The wildlife in the park include • •
13 mammals species 9 reptiles species
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5 birds species
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5 amphibians species
These parks were expected to protect the natural ecosystems. However illegal extraction and poaching of wildlife has seriously reduced their potential. Two centuries ago ELEPHANT and rhinoceros have been reported in these forests but became extinct in the late nineteenth century. TIGERs and leopards were numerous, but tigers dwindled in the early twentieth century and extinct fifty years ago. Leopards are feared to be close to extinction. The Leopard-Cat, Fishing-Cat, Jungle Cat and small Indian Civet are still to be found. The Peacock was at one time quite plentiful but became extinct thirty years ago. In addition the Forest Department has recently introduced peacocks, deers, pythons and cat fish. The proximity of the National park from the capital city makes the park as a promising one to be developed as eco-destination with developed amenities and recreation facilities.
CONCLUSION:
We went to our field trip with a great interest, we came back from the trip at 7.45 pm in our university campus with the same interest as well. The whole way we enjoyed with each other. After coming back from the trip recognized that my vision is improved as a geographer. It helped us to observe things more properly and carefully. To be a good geographer we need to observe things in a right point of view. Fieldtrip helps us to do so. We learned a lot from our first fieldtrip and we are now looking forward to go to more fieldtrip in future.