Soumettre la recherche
Mettre en ligne
R&D Jatropha
•
0 j'aime
•
452 vues
G
gilbertociro
Suivre
Signaler
Partager
Signaler
Partager
1 sur 11
Recommandé
R&d jatropha
R&d jatropha
minasinvest
R&d jatropha results achieved
R&d jatropha results achieved
minasinvest
R&d itabira in english
R&d itabira in english
minasinvest
M. El Bouhssini et al.
Management of Insect Pests of Food Legumes in West and Central Asia and North...
Management of Insect Pests of Food Legumes in West and Central Asia and North...
ICARDA
by Griselda Sanchez Vallduvi
Sustainable development of healthy oilseeds
Sustainable development of healthy oilseeds
2020 Conference
I prepared this presentation in 2015 for the Food Biotechnology Course (GEB-504) during my Masters.
Development of New Biotech Food Products: Fruits (Nafisa Nawal Islam)
Development of New Biotech Food Products: Fruits (Nafisa Nawal Islam)
Nafisa Nawal Islam
Presentation at the Side event of PAEPARD the 7th African Agriculture Science Week 14 June 2016, Kigali
EFFECTS OF ORGANIC AMENDMENTS ENRICHED WITH TRICHODERMA SP ON VEGETABLE PRODU...
EFFECTS OF ORGANIC AMENDMENTS ENRICHED WITH TRICHODERMA SP ON VEGETABLE PRODU...
Francois Stepman
biotechnology in the vegetable crop, transgenics,
Transgenic in vegetable crop
Transgenic in vegetable crop
VIVEK YADAV
Recommandé
R&d jatropha
R&d jatropha
minasinvest
R&d jatropha results achieved
R&d jatropha results achieved
minasinvest
R&d itabira in english
R&d itabira in english
minasinvest
M. El Bouhssini et al.
Management of Insect Pests of Food Legumes in West and Central Asia and North...
Management of Insect Pests of Food Legumes in West and Central Asia and North...
ICARDA
by Griselda Sanchez Vallduvi
Sustainable development of healthy oilseeds
Sustainable development of healthy oilseeds
2020 Conference
I prepared this presentation in 2015 for the Food Biotechnology Course (GEB-504) during my Masters.
Development of New Biotech Food Products: Fruits (Nafisa Nawal Islam)
Development of New Biotech Food Products: Fruits (Nafisa Nawal Islam)
Nafisa Nawal Islam
Presentation at the Side event of PAEPARD the 7th African Agriculture Science Week 14 June 2016, Kigali
EFFECTS OF ORGANIC AMENDMENTS ENRICHED WITH TRICHODERMA SP ON VEGETABLE PRODU...
EFFECTS OF ORGANIC AMENDMENTS ENRICHED WITH TRICHODERMA SP ON VEGETABLE PRODU...
Francois Stepman
biotechnology in the vegetable crop, transgenics,
Transgenic in vegetable crop
Transgenic in vegetable crop
VIVEK YADAV
UNIVERSITY OF AGRICULTURAL SCIENCES, DHARWAD DEPARTMENT OF GENETICS AND PLANT BREEDING Master’s seminar-II Root genetic research and its applications in plant breeding Speaker: Om Prakash Patidar Date: 20/03/2015 ID No.: PGS13AGR6140 Time: 3:00 PM Synopsis Roots play an essential role in the acquisition of water and minerals from soils. Root system architecture (RSA), the spatial configuration of a root system in the soil, is used to describe the shape and structure of root system. Its importance in plant productivity lies in the fact that major soil resources are heterogeneously distributed in the soil, so that the spatial deployment of roots will substantially determine the ability of a plant to secure edaphic resources. Measuring crop root architecture and assaying for changes in function can be challenging, but examples have emerged showing that modifications to roots result in higher yield and increased stress tolerance.1 A marker-assisted back-crossing (MABC) breeding programme was conducted to improve the root morphological traits, and thereby drought tolerance, of the Indian upland rice variety, Kalinga III. The donor parent was Azucena, an upland japonica variety from Philippines. Five segments on different chromosomes were targeted for introgression; four segments carried QTLs for improved root morphological traits and the fifth carried a recessive QTL for aroma. It significantly increased root length under both irrigated and drought stress treatments.2 Alteration of root system architecture improves drought avoidance through the cloning and characterization of DEEPER ROOTING 1 (DRO1), a rice quantitative trait locus controlling root growth angle. Higher expression of DRO1 increases the root growth angle, whereby roots grow in a more downward direction. Introducing DRO1 into a shallow-rooting rice cultivar by backcrossing enabled the resulting line to avoid drought by increasing deep rooting, which maintained high yield performance under drought conditions relative to the recipient cultivar.3 GmEXPB2, A vegetative -expansin gene, clone from a Pi starvation-induced soybean cDNA library. GmEXPB2 was found to be primarily expressed in roots, and was highly induced by Pi starvation, and the induction pattern was confirmed by GUS staining in transgenic soybean hairy roots. Results from intact soybean composite showed that GmEXPB2 is involved in hairy root elongation, and subsequently affects plant growth and P uptake, especially at low P levels.4 Candidate Aluminum tolerance proteins include organic acid efflux transporters, with the organic acids forming non-toxic complexes with rhizosphere aluminum. ge
Root genetic research and its application in plant breeding or crop improvement
Root genetic research and its application in plant breeding or crop improvement
Om Prakash Patidar
A brief on Applications of Transgenic Plants.
Transgenic plants rashi.r.apb
Transgenic plants rashi.r.apb
Rashi Rathore
Micropropagation in orchid
Micropropogation in orchid
Micropropogation in orchid
Aswin M Babu
Seminar - Roland Schafleitner - July 23, 2010
Drought tolerance genes and traits/Gene Index and markers
Drought tolerance genes and traits/Gene Index and markers
International Potato Center
biotech
Gm crop improvement abt-323
Gm crop improvement abt-323
Nupur Rishikesh
Terminator Gene Technology & its application in crop Improvement
Terminator gene technology & its applications in crop improvement
Terminator gene technology & its applications in crop improvement
Ishan Mehta
Breeding for Drought resistance in Rice,conventional breeding,case study discussions.
Breeding for Drought resistance in Rice
Breeding for Drought resistance in Rice
Roshan Parihar
It was evident that developed biotechnological approaches have the potential to enhance the yield, quality, and shelf-life of fruits and vegetables to meet the demands of the 21st century. However, the developed biotech approaches for fruits and vegetables were more of academic jargon than a commercial reality
Role of biotechnology in enhancing fruit crop production and quality
Role of biotechnology in enhancing fruit crop production and quality
ankit gawri
Current approaches toward production of secondary plant metabolites
Current approaches toward production of secondary plant metabolites
Current approaches toward production of secondary plant metabolites
Aswin M Babu
Biofortification and Nutritional enhancement
Transgenic plant with improved nutritional quality
Transgenic plant with improved nutritional quality
Dr. Kirti Mehta
myth and truth of transgenic crop
Myths and truths of transgenic crops
Myths and truths of transgenic crops
Balaji Rathod
Manual on Biofertilizer Production and Application
Biofertilizer Production and Application
Biofertilizer Production and Application
School Vegetable Gardening - Victory Gardens
Morchella, the true morels, belonging to Helvellaceae family of class Ascomycetes, are amongst the most highly prized fungi in the world. Their artificial production is still a challenge, even though patents for their cultivation do exist. The tissue of Morchella sp. was transferred aseptically to Potato Dextrose Agar medium (peeled, sliced and boiled potato, 200 g; dextrose, 20 g; agar, 20 g L-1) to grow hyphae. The mycelium showed fastest growth as compared to other edible mushrooms. It covered entire area of Petri plate (90 mm) within 4-5 days with the growth rate of 18-22.5mm/day. A unique growth pattern i.e. vertically oriented mycelia were observed. Brown coloured pigmentation in the culture was also observed during the study. The basal media for spawn (wheat grains; Glucose, 1%, CaCO3, 2%; CaSO4, 1.5% and MgSO4, 1%) was aseptically inoculated with the mushroom culture. The spawn substrate was colonized by mushroom mycelium in 7-8 days. The sclerotia were formed in unused (old) spawn. Wheat straw was used as a substrate for mushroom cultivation. It was supplemented with wheat bran, 20%, Glucose (1%) and MgSO4 (1%). It showed prolific growth when it was seeded by mushroom spawn using jar method. Once substrate was fully covered with mushroom mycelium, casing was applied. Sclerotia were successfully obtained after 14 days of incubation in our experiment both in the substrate and casing soil but failed to give rise to fruiting primordial. Further research is going on to domesticate this species in this part of country.
Sclerotia production a way ahead to morchella cultivation
Sclerotia production a way ahead to morchella cultivation
Dr. siddhant
Genetically Modified Crop is a crop whose genetic characteristics have been altered by the insertion of a gene or a gene from another organism using the techniques of genetic engineering.
Genetically Modified Crop Production.
Genetically Modified Crop Production.
Md.Mainur Reja
The overall goal of this project is to develop tangible options to mitigate and adapt to climate change impacts on agriculture and forestry more quickly than could be reached by relying solely on crop improvement approaches via breeding or transgenic.
The Use of Diazotrophic Endophytes as a Means for Climate Change Mitigation a...
The Use of Diazotrophic Endophytes as a Means for Climate Change Mitigation a...
National Institute of Food and Agriculture
transgenic bacteria
transgenic bacteria
transgenic bacteria
Dr. Manjunatha GA
https://www.irjet.net/archives/V5/i11/IRJET-V5I11299.pdf
IRJET- Use of Triple Bagging System and Lippia Multiflora Leaves for the Mine...
IRJET- Use of Triple Bagging System and Lippia Multiflora Leaves for the Mine...
IRJET Journal
Complete presentation on drought resistance crop
Genetically Modified Crop ( DROUGHT RESISTANCE CROP )
Genetically Modified Crop ( DROUGHT RESISTANCE CROP )
Dr. Veena Kumari
Plants are continually exposed to harsh environmental conditions which is life- threatening for their survival. Drought is one of the major environmental constraints that highly affect plant growth and productivity worldwide. Osmotic stress due to limited availability of water during drought lead to the inhibition of photosynthesis which ultimately affect plant growth, yield and productivity. As sessile in nature, plants cannot escape from such adverse situations. Hence, to cope up with these adverse situations, plants have developed a complex array of adaptive strategies including intricate regulation of cellular, physiological, biochemical and metabolic processes to avoid or tolerate cellular dehydration. Under limited water availability, stomata plays an essential role to check water loss due to transpiration. In addition, upon perception of stress signal, a wide range of signaling cascade has been activated which ultimately initiates the expression of stress-responsive genes in a timely and coordinated manner. Abscisic acid (ABA), the universal stress hormone, highly accumulated under stress condition, also plays an important role in stress adaptation including stomatal closure and expression of stress-responsive genes. In recent times, whole genome sequencing analysis of different plants reveals that a large family of genes is expressed under different types of abiotic stresses that are involved in defense-related pathways. These genes can be grouped into three categories, genes involving recognition of osmotic stress, signal perception, and transduction and production of stress-adaptive components for physiological responses.
Genetic Engineering for drought
Genetic Engineering for drought
Rachana Bagudam
transgenic plants
Presentaion transgenic plants
Presentaion transgenic plants
MohsinKhan875
The Jatropha System: An Integrated Approach of Rural Development
The Jatropha System: An Integrated Approach of Rural Development
The Jatropha System: An Integrated Approach of Rural Development
QZ1
Presentation about the Jatropha curcas value chain
Delhi
Delhi
Ab van Peer
Contenu connexe
Tendances
UNIVERSITY OF AGRICULTURAL SCIENCES, DHARWAD DEPARTMENT OF GENETICS AND PLANT BREEDING Master’s seminar-II Root genetic research and its applications in plant breeding Speaker: Om Prakash Patidar Date: 20/03/2015 ID No.: PGS13AGR6140 Time: 3:00 PM Synopsis Roots play an essential role in the acquisition of water and minerals from soils. Root system architecture (RSA), the spatial configuration of a root system in the soil, is used to describe the shape and structure of root system. Its importance in plant productivity lies in the fact that major soil resources are heterogeneously distributed in the soil, so that the spatial deployment of roots will substantially determine the ability of a plant to secure edaphic resources. Measuring crop root architecture and assaying for changes in function can be challenging, but examples have emerged showing that modifications to roots result in higher yield and increased stress tolerance.1 A marker-assisted back-crossing (MABC) breeding programme was conducted to improve the root morphological traits, and thereby drought tolerance, of the Indian upland rice variety, Kalinga III. The donor parent was Azucena, an upland japonica variety from Philippines. Five segments on different chromosomes were targeted for introgression; four segments carried QTLs for improved root morphological traits and the fifth carried a recessive QTL for aroma. It significantly increased root length under both irrigated and drought stress treatments.2 Alteration of root system architecture improves drought avoidance through the cloning and characterization of DEEPER ROOTING 1 (DRO1), a rice quantitative trait locus controlling root growth angle. Higher expression of DRO1 increases the root growth angle, whereby roots grow in a more downward direction. Introducing DRO1 into a shallow-rooting rice cultivar by backcrossing enabled the resulting line to avoid drought by increasing deep rooting, which maintained high yield performance under drought conditions relative to the recipient cultivar.3 GmEXPB2, A vegetative -expansin gene, clone from a Pi starvation-induced soybean cDNA library. GmEXPB2 was found to be primarily expressed in roots, and was highly induced by Pi starvation, and the induction pattern was confirmed by GUS staining in transgenic soybean hairy roots. Results from intact soybean composite showed that GmEXPB2 is involved in hairy root elongation, and subsequently affects plant growth and P uptake, especially at low P levels.4 Candidate Aluminum tolerance proteins include organic acid efflux transporters, with the organic acids forming non-toxic complexes with rhizosphere aluminum. ge
Root genetic research and its application in plant breeding or crop improvement
Root genetic research and its application in plant breeding or crop improvement
Om Prakash Patidar
A brief on Applications of Transgenic Plants.
Transgenic plants rashi.r.apb
Transgenic plants rashi.r.apb
Rashi Rathore
Micropropagation in orchid
Micropropogation in orchid
Micropropogation in orchid
Aswin M Babu
Seminar - Roland Schafleitner - July 23, 2010
Drought tolerance genes and traits/Gene Index and markers
Drought tolerance genes and traits/Gene Index and markers
International Potato Center
biotech
Gm crop improvement abt-323
Gm crop improvement abt-323
Nupur Rishikesh
Terminator Gene Technology & its application in crop Improvement
Terminator gene technology & its applications in crop improvement
Terminator gene technology & its applications in crop improvement
Ishan Mehta
Breeding for Drought resistance in Rice,conventional breeding,case study discussions.
Breeding for Drought resistance in Rice
Breeding for Drought resistance in Rice
Roshan Parihar
It was evident that developed biotechnological approaches have the potential to enhance the yield, quality, and shelf-life of fruits and vegetables to meet the demands of the 21st century. However, the developed biotech approaches for fruits and vegetables were more of academic jargon than a commercial reality
Role of biotechnology in enhancing fruit crop production and quality
Role of biotechnology in enhancing fruit crop production and quality
ankit gawri
Current approaches toward production of secondary plant metabolites
Current approaches toward production of secondary plant metabolites
Current approaches toward production of secondary plant metabolites
Aswin M Babu
Biofortification and Nutritional enhancement
Transgenic plant with improved nutritional quality
Transgenic plant with improved nutritional quality
Dr. Kirti Mehta
myth and truth of transgenic crop
Myths and truths of transgenic crops
Myths and truths of transgenic crops
Balaji Rathod
Manual on Biofertilizer Production and Application
Biofertilizer Production and Application
Biofertilizer Production and Application
School Vegetable Gardening - Victory Gardens
Morchella, the true morels, belonging to Helvellaceae family of class Ascomycetes, are amongst the most highly prized fungi in the world. Their artificial production is still a challenge, even though patents for their cultivation do exist. The tissue of Morchella sp. was transferred aseptically to Potato Dextrose Agar medium (peeled, sliced and boiled potato, 200 g; dextrose, 20 g; agar, 20 g L-1) to grow hyphae. The mycelium showed fastest growth as compared to other edible mushrooms. It covered entire area of Petri plate (90 mm) within 4-5 days with the growth rate of 18-22.5mm/day. A unique growth pattern i.e. vertically oriented mycelia were observed. Brown coloured pigmentation in the culture was also observed during the study. The basal media for spawn (wheat grains; Glucose, 1%, CaCO3, 2%; CaSO4, 1.5% and MgSO4, 1%) was aseptically inoculated with the mushroom culture. The spawn substrate was colonized by mushroom mycelium in 7-8 days. The sclerotia were formed in unused (old) spawn. Wheat straw was used as a substrate for mushroom cultivation. It was supplemented with wheat bran, 20%, Glucose (1%) and MgSO4 (1%). It showed prolific growth when it was seeded by mushroom spawn using jar method. Once substrate was fully covered with mushroom mycelium, casing was applied. Sclerotia were successfully obtained after 14 days of incubation in our experiment both in the substrate and casing soil but failed to give rise to fruiting primordial. Further research is going on to domesticate this species in this part of country.
Sclerotia production a way ahead to morchella cultivation
Sclerotia production a way ahead to morchella cultivation
Dr. siddhant
Genetically Modified Crop is a crop whose genetic characteristics have been altered by the insertion of a gene or a gene from another organism using the techniques of genetic engineering.
Genetically Modified Crop Production.
Genetically Modified Crop Production.
Md.Mainur Reja
The overall goal of this project is to develop tangible options to mitigate and adapt to climate change impacts on agriculture and forestry more quickly than could be reached by relying solely on crop improvement approaches via breeding or transgenic.
The Use of Diazotrophic Endophytes as a Means for Climate Change Mitigation a...
The Use of Diazotrophic Endophytes as a Means for Climate Change Mitigation a...
National Institute of Food and Agriculture
transgenic bacteria
transgenic bacteria
transgenic bacteria
Dr. Manjunatha GA
https://www.irjet.net/archives/V5/i11/IRJET-V5I11299.pdf
IRJET- Use of Triple Bagging System and Lippia Multiflora Leaves for the Mine...
IRJET- Use of Triple Bagging System and Lippia Multiflora Leaves for the Mine...
IRJET Journal
Complete presentation on drought resistance crop
Genetically Modified Crop ( DROUGHT RESISTANCE CROP )
Genetically Modified Crop ( DROUGHT RESISTANCE CROP )
Dr. Veena Kumari
Plants are continually exposed to harsh environmental conditions which is life- threatening for their survival. Drought is one of the major environmental constraints that highly affect plant growth and productivity worldwide. Osmotic stress due to limited availability of water during drought lead to the inhibition of photosynthesis which ultimately affect plant growth, yield and productivity. As sessile in nature, plants cannot escape from such adverse situations. Hence, to cope up with these adverse situations, plants have developed a complex array of adaptive strategies including intricate regulation of cellular, physiological, biochemical and metabolic processes to avoid or tolerate cellular dehydration. Under limited water availability, stomata plays an essential role to check water loss due to transpiration. In addition, upon perception of stress signal, a wide range of signaling cascade has been activated which ultimately initiates the expression of stress-responsive genes in a timely and coordinated manner. Abscisic acid (ABA), the universal stress hormone, highly accumulated under stress condition, also plays an important role in stress adaptation including stomatal closure and expression of stress-responsive genes. In recent times, whole genome sequencing analysis of different plants reveals that a large family of genes is expressed under different types of abiotic stresses that are involved in defense-related pathways. These genes can be grouped into three categories, genes involving recognition of osmotic stress, signal perception, and transduction and production of stress-adaptive components for physiological responses.
Genetic Engineering for drought
Genetic Engineering for drought
Rachana Bagudam
transgenic plants
Presentaion transgenic plants
Presentaion transgenic plants
MohsinKhan875
Tendances
(20)
Root genetic research and its application in plant breeding or crop improvement
Root genetic research and its application in plant breeding or crop improvement
Transgenic plants rashi.r.apb
Transgenic plants rashi.r.apb
Micropropogation in orchid
Micropropogation in orchid
Drought tolerance genes and traits/Gene Index and markers
Drought tolerance genes and traits/Gene Index and markers
Gm crop improvement abt-323
Gm crop improvement abt-323
Terminator gene technology & its applications in crop improvement
Terminator gene technology & its applications in crop improvement
Breeding for Drought resistance in Rice
Breeding for Drought resistance in Rice
Role of biotechnology in enhancing fruit crop production and quality
Role of biotechnology in enhancing fruit crop production and quality
Current approaches toward production of secondary plant metabolites
Current approaches toward production of secondary plant metabolites
Transgenic plant with improved nutritional quality
Transgenic plant with improved nutritional quality
Myths and truths of transgenic crops
Myths and truths of transgenic crops
Biofertilizer Production and Application
Biofertilizer Production and Application
Sclerotia production a way ahead to morchella cultivation
Sclerotia production a way ahead to morchella cultivation
Genetically Modified Crop Production.
Genetically Modified Crop Production.
The Use of Diazotrophic Endophytes as a Means for Climate Change Mitigation a...
The Use of Diazotrophic Endophytes as a Means for Climate Change Mitigation a...
transgenic bacteria
transgenic bacteria
IRJET- Use of Triple Bagging System and Lippia Multiflora Leaves for the Mine...
IRJET- Use of Triple Bagging System and Lippia Multiflora Leaves for the Mine...
Genetically Modified Crop ( DROUGHT RESISTANCE CROP )
Genetically Modified Crop ( DROUGHT RESISTANCE CROP )
Genetic Engineering for drought
Genetic Engineering for drought
Presentaion transgenic plants
Presentaion transgenic plants
En vedette
The Jatropha System: An Integrated Approach of Rural Development
The Jatropha System: An Integrated Approach of Rural Development
The Jatropha System: An Integrated Approach of Rural Development
QZ1
Presentation about the Jatropha curcas value chain
Delhi
Delhi
Ab van Peer
Feasibility of seed production and commercialization by smallholder farmers in Zimbabwe.
Final zimbabwe
Final zimbabwe
Ab van Peer
Jatropha Vegetable Oil: BioEnergy Fuel for the 3rd World Poor
Jatropha Vegetable Oil: BioEnergy Fuel for the 3rd World Poor
Jatropha Vegetable Oil: BioEnergy Fuel for the 3rd World Poor
ZY8
Biofuel with particular focus on Jatropha curcas as biodiesel
Biofuel
Biofuel
sjcc
Production of Bio-diesel from jatropha plant .... By the increase in demand of fuel the resources are not as many to full control the demand of the world and the known reservoir wont last forever there fore an alternate energy source is required to fulfill the world fuel demand.
Production of biodiesel from jatropha plant
Production of biodiesel from jatropha plant
Nofal Umair
En vedette
(6)
The Jatropha System: An Integrated Approach of Rural Development
The Jatropha System: An Integrated Approach of Rural Development
Delhi
Delhi
Final zimbabwe
Final zimbabwe
Jatropha Vegetable Oil: BioEnergy Fuel for the 3rd World Poor
Jatropha Vegetable Oil: BioEnergy Fuel for the 3rd World Poor
Biofuel
Biofuel
Production of biodiesel from jatropha plant
Production of biodiesel from jatropha plant
Similaire à R&D Jatropha
BioVale Energia - results achieved with its research for Jatropha-curcas in partnership with UFV and Fapemig
R&d jatropha results achieved
R&d jatropha results achieved
Rede Jatropha
Biovale Your Biodiesel Projects In Brazil
Biovale Your Biodiesel Projects In Brazil
TEIAS TEIA DE EXECUTIVOS
Biovale your biodiesel projects in brazil pdf
Biovale your biodiesel projects in brazil pdf
Rede Jatropha
Some tools like that agro bacterium mediated , partical bombardment, protoplast fusion etc.
Biotechnology improvement tools in sugarcane crop improvement
Biotechnology improvement tools in sugarcane crop improvement
vishwas chaudhari
ISOLATION OF RHIZOBIUM FROM HOTSPRING WATER AND ASSESSMENT OF ITS BIOERTILIZER ACTIVITYT
Sandip Gharui OIST
Sandip Gharui OIST
Arnim Banerjee
biofertilizers
Assignment on biofertilizers,
Assignment on biofertilizers,
BABLUHRANGKHAWL
BIOPROSPECTING
Bioprospecting
Bioprospecting
PREETI REDDY
Los días 20 y 21 de mayo de 2014, la Fundación Ramón Areces organizó el Simposio Internacional 'Microorganismos beneficiosos para la agricultura y la protección de la biosfera' dentro de su programa de Ciencias de la Vida y de la Materia.
Alberto Bago - Micorrizas. Una raíz extendida
Alberto Bago - Micorrizas. Una raíz extendida
Fundación Ramón Areces
This ppt tells the story of a boy who has to complete his homework which is about microbial inoculation. through this story one can learn about types of inoculants and microbial inoculant uses in agriculture.
Microbial inoculant
Microbial inoculant
NikkiM12
Mushroom cultivation in india and its scope.
Kailas ppt mushroom
Kailas ppt mushroom
KailasSitaphale
Biotechnology with agriculture is very useful in now a days and also in upcoming days. With the help of biotechnology we can produce better quality of crops and also increase the yield. The produces are also free from pests.
role of biotechnology in agriculture
role of biotechnology in agriculture
Ruchi Priya
Custom Writing Service http://StudyHub.vip/Applications-Of-Biotechnology-For-Crop- 👈
Applications Of Biotechnology For Crop Improvement Prospects And Constraints
Applications Of Biotechnology For Crop Improvement Prospects And Constraints
Angela Shin
Biotechnology, a key component of contemporary industry, agriculture, and medicine, uses live organisms or compounds to create or modify products for specific uses. It applies to all genera, from simple bacteria to complex plants and animals. Modern biotechnology allows scientists to identify and regulate species' genetic structure. Biotechnology enhances plant resistance to pests, insects, drought, diseases, cold, and soil acidity, improving yields, preventing diseases, and enhancing food nutritional value.
Applications of Biotechnology in Food and Agriculture
Applications of Biotechnology in Food and Agriculture
Kandahar University Biology Department
To get basic idea of Transgenics and their use in various fields
Transgenic crops and their uses in various Fields
Transgenic crops and their uses in various Fields
HassanMehmoodSipra
Recent advances along with the previous research on vegetable crops enlisted in this ppt
ADVANCES IN BIOTECHNOLOGY OF VEGETABLE CROPS
ADVANCES IN BIOTECHNOLOGY OF VEGETABLE CROPS
RIMAN SAHA CHOWDHURY
Transgenic plants development
PLANT BIOTECHNOLOGY
PLANT BIOTECHNOLOGY
ChiranjeeviSK
Genetically Modified Crops
TRANSGENIC CROPS
TRANSGENIC CROPS
Nischith Nbs
Plant Biotechnology
Plant biotechnology and its impacts
Plant biotechnology and its impacts
dhabzzz
Microbe-assisted phytoremediation is a recent application of bioremediation with much prospects. The genetic relatedness of culturable endophytic bacteria of wetland plants growing on a six month-old and twelve month-old petroleum-contaminated sites, and an uncontaminated site in Bayelsa State of the Niger Delta Region, Nigeria were compared. Most of the endophyte species isolated from the roots, stems and leaves were common to all the sites and belong to the phyla Proteobacteria, Bacteroidetes Firmicutes, Actinobacteria, Chloroflexi and Actinomicrobia, with the γ-Proteobacteria dominating. Pseudomonas was the most prevalent species in all three sites, but higher in the petroleum contaminated sites. Biochemical properties (API 20E) of the common isolates; Pseudomonas spp.Chryseobacterium indologenes,Bacillus and Proteusvaried with sites while only Providencia rettgeri peculiar to the petroleum-contaminated sites showed the same properties. 16S rRNA PCR-DNA fragments of forty-five species of the isolates (15 from each site) were characterized using RFLP and MspI restriction enzyme and a genetic distance tree of the restriction patterns drawn. The percentage of similarity in the genetic relatedness of isolates ranged from 11.1 – 100%. The genetic tree analysis of the 45 species of identified bacteria revealed 3 major clusters with 17 DNA fingerprinting patterns. Pseudomonas species of the root and leaves of the six month-old petroleum-contaminated site and uncontaminated site were seen to cluster together irrespective of date of isolation. The endophytes may play a role in the in situ degradation of the petroleum hydrocarbon of the sites.
Distribution, Biochemical Properties and Genetic Relatedness of Endophytic Ba...
Distribution, Biochemical Properties and Genetic Relatedness of Endophytic Ba...
AI Publications
Pigeonpea Breeding- Present scenario, productivity and breeding constraints, Traditional and Recent Breeding approaches, Hybrid technology- GMS and CGMS based hybrids, Future strategies and Prospects, Research articles on pigeonpea breeding.
PIGEON PEA BREEDING- MASTER SEMINAR
PIGEON PEA BREEDING- MASTER SEMINAR
akshithabezawada
Similaire à R&D Jatropha
(20)
R&d jatropha results achieved
R&d jatropha results achieved
Biovale Your Biodiesel Projects In Brazil
Biovale Your Biodiesel Projects In Brazil
Biovale your biodiesel projects in brazil pdf
Biovale your biodiesel projects in brazil pdf
Biotechnology improvement tools in sugarcane crop improvement
Biotechnology improvement tools in sugarcane crop improvement
Sandip Gharui OIST
Sandip Gharui OIST
Assignment on biofertilizers,
Assignment on biofertilizers,
Bioprospecting
Bioprospecting
Alberto Bago - Micorrizas. Una raíz extendida
Alberto Bago - Micorrizas. Una raíz extendida
Microbial inoculant
Microbial inoculant
Kailas ppt mushroom
Kailas ppt mushroom
role of biotechnology in agriculture
role of biotechnology in agriculture
Applications Of Biotechnology For Crop Improvement Prospects And Constraints
Applications Of Biotechnology For Crop Improvement Prospects And Constraints
Applications of Biotechnology in Food and Agriculture
Applications of Biotechnology in Food and Agriculture
Transgenic crops and their uses in various Fields
Transgenic crops and their uses in various Fields
ADVANCES IN BIOTECHNOLOGY OF VEGETABLE CROPS
ADVANCES IN BIOTECHNOLOGY OF VEGETABLE CROPS
PLANT BIOTECHNOLOGY
PLANT BIOTECHNOLOGY
TRANSGENIC CROPS
TRANSGENIC CROPS
Plant biotechnology and its impacts
Plant biotechnology and its impacts
Distribution, Biochemical Properties and Genetic Relatedness of Endophytic Ba...
Distribution, Biochemical Properties and Genetic Relatedness of Endophytic Ba...
PIGEON PEA BREEDING- MASTER SEMINAR
PIGEON PEA BREEDING- MASTER SEMINAR
Plus de gilbertociro
Espaco inovarte divulgacao
Espaco inovarte divulgacao
gilbertociro
Unique house in bh
Unique house in bh
gilbertociro
House presentation
House presentation
gilbertociro
Rede da Bioerg
Rede da Bioerg
gilbertociro
Redes Sociais O Impacto Da Colaboracao Em Massa
Redes Sociais O Impacto Da Colaboracao Em Massa
gilbertociro
Microsoft Power Point Programa De Pesquisa Em Rede Bio Vale]D1 Oils
Microsoft Power Point Programa De Pesquisa Em Rede Bio Vale]D1 Oils
gilbertociro
A rede da Bioerg
A rede da Bioerg
gilbertociro
Bioerg In English
Bioerg In English
gilbertociro
ApresentaçãO Bioerg Slides
ApresentaçãO Bioerg Slides
gilbertociro
Redes Sociais O Impacto Da Colaboracao Em Massa
Redes Sociais O Impacto Da Colaboracao Em Massa
gilbertociro
fazendo marketing em ambientes virtuais
fazendo marketing em ambientes virtuais
gilbertociro
Espaco Inovarte
Espaco Inovarte
gilbertociro
Parceria Para A Inovacao
Parceria Para A Inovacao
gilbertociro
Cia Minas Uilo
Cia Minas Uilo
gilbertociro
Painel Para A Inovacao
Painel Para A Inovacao
gilbertociro
Centro De Economia Digital Aplicada
Centro De Economia Digital Aplicada
gilbertociro
Plus de gilbertociro
(16)
Espaco inovarte divulgacao
Espaco inovarte divulgacao
Unique house in bh
Unique house in bh
House presentation
House presentation
Rede da Bioerg
Rede da Bioerg
Redes Sociais O Impacto Da Colaboracao Em Massa
Redes Sociais O Impacto Da Colaboracao Em Massa
Microsoft Power Point Programa De Pesquisa Em Rede Bio Vale]D1 Oils
Microsoft Power Point Programa De Pesquisa Em Rede Bio Vale]D1 Oils
A rede da Bioerg
A rede da Bioerg
Bioerg In English
Bioerg In English
ApresentaçãO Bioerg Slides
ApresentaçãO Bioerg Slides
Redes Sociais O Impacto Da Colaboracao Em Massa
Redes Sociais O Impacto Da Colaboracao Em Massa
fazendo marketing em ambientes virtuais
fazendo marketing em ambientes virtuais
Espaco Inovarte
Espaco Inovarte
Parceria Para A Inovacao
Parceria Para A Inovacao
Cia Minas Uilo
Cia Minas Uilo
Painel Para A Inovacao
Painel Para A Inovacao
Centro De Economia Digital Aplicada
Centro De Economia Digital Aplicada
R&D Jatropha
1.
Jatropha R&D project
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
Jatropha R&D project
[email_address]
![[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],R&D goals and stakeholders](data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7)