Crop improvement universe

Slides:

Advertisements

Similar presentations

POTENTIAL IMPACTS OF CLIMATE CHANGE AND CLIMATE VARIABILITY ON AGRICULTURE, RANGELANDS, FORESTRY AND FISHERIES IN EUROPE MITIGATION AND ADAPTATION STRATEGIES.

Advertisements

6 Mark Tester Australian Centre for Plant Functional Genomics University of Adelaide Research developments in genetically modified grains.

Computer Simulation in Plant Breeding Introduction Outline Application I: Breeding Method Application II: Gene Mapping Application III: Genetic Modeling.

Molecular ecology, quantitative genetic and genomics Dave Coltman + Melissa Gunn, Andrew Leviston, Katie Hartnup & Jon Slate.

Mohammad Abd Elgawad Emam Assistant Lecturer, Agronomy Department,Faculty Of Agriculture.

Nexgen Plants Pty Ltd The Virus Trait Company March 2015.

Barley – Molecular Breeding IAMZ 2015 Patrick Hayes Dept. Crop and Soil Science Oregon State University Corvallis, Oregon USA

GENOME SCANS New QTLs discovered Breeding markers Screening services Marker priorities Crossing scheme Trial MASS Socio-economics information DNA information.

1Managed by UT-Battelle for the Department of Energy Molecular signatures characterize plant response to single and multiple environmental stresses Contact:

Adaptation & Technology: Key to Productivity Improvement

Crop adaptation to future climates: Climate ready wheat Jairo A Palta CSIRO - Principal Research Scientist – Adjunct Research Professor, UWA 21 Nov 2014.

European Cooperation in the field of Scientific and Technical Research COST is supported by the EU RTD Framework Programme ESF provides the COST Office.

Agricultural Innovation Kim Ritman Chief Scientist ABARES.

Introduction of Plant Biotechnology

Biodiversity research and informatics in Bioversity International TDWG 2009 meeting ‘e-knowledge about Biodiversity and Agriculture’ Montpellier, 9-13.

Rapid method to identify the mutated gene responsible for a trait A systems approach to understand biological mechanism High throughput sequencing to develop.

BREEDING AND BIOTECHNOLOGY. Breeding? Application of genetics principles for improvement Application of genetics principles for improvement “Accelerated”

WG1 minutes for Driebergen Workshop 1- Exchange of plant material. –Timescale: >2008 –Objectives: To have access to new, different, original material.

Data Management for Integrated Breeding

Third Project cycle of the Benefit- sharing Fund Window 3 Co-development and transfer of technologies projects

Barley Research in TIAR Meixue Zhou. Barley Research in TIAR s Breeding –Long season and high rainfall areas - Franklin –Spring sown barley – Vertess.

Investigators Institution Expertise

CROP -TOTAL CLIMATE RISK COMPONENT From end to end- Land preparation, crop sowing –TO Harvest and post harvest operations Consider both –Direct impact-

How can Genetics help to deliver sustainability?

PHENOTYPIC EVALUATION OF GROUNDNUT GERMPLASM UNDER HEAT AND DROUGHT STRESS Third WECARD/CORAF Agricultural Science Week Ndjamena, May 2012 Falalou.

Working group : Greenhouse crops  Members: Temporary animator : Animator : Eric Brajeul, CTIFL, France, Participants:

Understanding responses to Simultaneous and Sequential responses to Abiotic Stresses in Arabidopsis and Rice Home About Collaborators Events Reports Photo.

Selective breeding Selective breeding (also called artificial selection) is the process by which humans breed other animals and plants for particular traits.

Root Phenotyping for Field Management of crops- dryland crops V. Maruthi Principal Scientist (Agronomy) Central Research Institute for Dryland Agriculture.

EPSO assistance for sustainable crop production in Africa Jean Christophe Glaszmann CIRAD Montpellier AGAP.

Products – vyber hlavni stranka PlantScreen™ Mini System PlantScreen™ Compact System PlantScreen™ Modular System PlantScreen™ Robotic XYZ System PlantScreen™

QTL for vigor traits (LA, plant height, growth rate)

Geographic Information Systems (GIS) and the Conservation and Use of Plant Genetic Resources Summary of

Plant Breeding across times: - challenges and achievements

(Labex Agro:ANR-10-LABX )) »

PHENOTYPING FOR ADAPTATION TO DROUGHT AND LOW-PHOSPHORUS SOILS IN COWPEA (VIGNA UNGUICULATA (L.) WALP.) Nouhoun Belko1, Ousmane Boukar1, Christian.

Biotechnology 101 Wendy Srnic,

Plant Breeding Approach

Local Landraces of Rice from Sri Lanka :

Figure 5. Do not be afraid to leave plenty of white space around your figures. If you use someone else’s figure, always acknowledge the source. Figures.

Cotton Breeding and Genetics Initiative

Technology description

TL III – 2017 Group discussion on the breeding program self-assessment

Advances in below and above-ground phenotyping

Investigators* Institution Expertise

(Labex Agro:ANR-10-LABX )) »

Phenotypic variability of drought-avoidance shoot and root phenes and

BREEDING AND BIOTECHNOLOGY

Precision agriculture for SAT; Near future or unrealistic effort?

Precision agriculture for SAT; Near future or unrealistic effort?

The Importance of “Genomes to Fields”

Pre-Breeding and Trait Discovery

Guiding crop improvement (genetics-agronomy) in diverse environments: a sorghum case study ABSTRACT: Postrainy sorghum productivity is limited by drought.

المحاضرة الأولى تطور الزراعة و إنتاج المحاصيل الحقلية

Volume 10, Issue 8, Pages (August 2017)

A. Dix, S. Vlaic, R. Guthke, J. Linde

Evolutionary Participatory Plant Program

Selective Plant Breeding

Understanding Multi-Environment Trials

Growth Stress Response (Agronomical Stress Response)

Translating High-Throughput Phenotyping into Genetic Gain

A National Strategic Action Plan for Portuguese Landraces Conservation

Simulating Systems Genetics data (An update on SysGenSIM without technical details: those will be provided by Andrea.

Antonio Julià Journal of Investigative Dermatology

BREEDING AND BIOTECHNOLOGY

Overview Summary of EiB Module #1 Principles & Work

University of Wisconsin, Madison

Revolutionize Genetic Studies and Crop Improvement with High-Throughput and Genome-Scale CRISPR/Cas9 Gene Editing Technology Ning Yang, Rongchen Wang,

It is used to dig up the earth so you can plant your crops.

Presentation transcript:

Crop improvement universe by crops physiology team; v.vadez@cgiar.org / j.kholova@cgiar.org Crop improvement universe Crop production Crop model predictions CROP PRODUCTION Agro-climatology Agronomy Molecular tools Agro-climate Physiology -omics Agronomy (crop&field) Crop-management package Trait value prediction Plant Plant processes Plant attributes Optimized GxExM Production zones Genes effects TR Molecules & pathways HT Screening for key traits 30000 400 3 Position PlantEyes Rail Actuator with 3 Postitions Sensor Supporting Device Driver with positioning system Scan Direction scale TR Drought adaptation traits Markers for key traits TR TR E.G. Crop grown on residual moisture (high incidence of terminal drought) TARGETED BREEDING (development of cultivar-management packages for specific agro-climatic conditions) Field testing High throughput phenotyping Investigation of plant processes Use of molecular tools