emPLANT COURSE CATALOGUEemplant-master.eu/wp-content/uploads/2017/10/Course-Catalogue-LAS... ·...
Transcript of emPLANT COURSE CATALOGUEemplant-master.eu/wp-content/uploads/2017/10/Course-Catalogue-LAS... ·...
emPLANTCOURSECATALOGUE
ERASMUSMUNDUSMASTERPROGRAMMEINPLANTBREEDING
ContentsJointCourses ................................................................................................................................................................................................................................................3
Semester1LAS.............................................................................................................................................................................................................................................3
JointCoursesJOINTCOURSES
Description,contents,learningoutcomes Prerequisites Implementation: ECTS
Pilotcase Semester1and2:UniLaSalle,SLUSemester3:UH,UPV,EgeUThe pilot case is a case study to apply the projectmanagementtools to a breeding program. First students by group have tochoose a species to be ameliorated. Then, find a character orseveralonesasgoalforthebreedingstrategy.Thestudentsneedtocheckthemarketpotentialforthisnewvarietyandverifythatfarmerswillwanttocultivateit.Secondly,studentswilldefinethepotentialmarketfortheirproduct(seeds),butalsothemarketforthe new variety (consumers). Thirdly, they need to create astructure to breed the new variety, and define the role of eachstudentofthegroupinthisstructure(company,association...).
Noprerequisites
The introduction to the Pilot Case will take place during theJoint IntegrationWeekwherethegroupswillbe formedbasedonthespecialtychosenbythestudentsforY2.Duringthefirstyear the studentswillwork ingroupswith their tutorsandviatelephone/video conference/email if group members are notlocatedatthesamesite(LAS/SLU).DuringS3thePilotCasewillbe finalized with the tutors at the host university and bytelephone/videoconference/emailamongthegroupmembers.Twojurieswillbeorganized.Thefirst juryattheendofS1willevaluate the content and the form of thework and especiallythe project management content. At the end of S2 a writtenreportwill be evaluated. At the end of S3 a jury composedofthelocaltutors,theCoordinatorsforY1andanexpertinProjectManagement will judge the defense of the Pilot Case. Thestudents of S1 and S3 will be able to attend their respectivepresentations.ThejuriesofS1andS3willbecarriedoutonthesamedayforlogisticreasons.
S1:3S2:3S3:2
Semester1LASSEMESTER1LAS Description,contents,learningoutcomes Prerequisite ECTS
Frenchasaforeignlanguage
Thislanguagecourseaimsatprovidingstudentswiththenecessarylanguagetoolstointeractsuccessfullyineverydaylifeandinbasicprofessionalsituations.Aftera2weekintensivelanguagecourse,studentswillcontinuetolearnFrenchattherateof3hoursperweek.Inadditiontoclassroominstruction,studentswillrealizeinteractiveassignments,suchasconductingsurveysamongsttheir French peers. These assignments, are designed to familiarize students with cultural aspects in France and the French-speakingworld.Introducing yourself and introducing someone else. Asking questions. Talking about your professional activities. Expressingpreferences.Understandinganitinerary.Expressinganintention.Makingappointments.Understandingaschedule.
Noprerequisites
2
Spanishasaforeignlanguage
This languagecourse is targetedatstudentswhochoseUPVasY2destinationandwhostillneedtobringtheirSpanishtoaB2level for everyday life and professional situations. Students will learn Spanish at the rate of 2 hours per week. In addition toclassroominstruction,studentswillrealizeinteractiveassignments.ThiscourseiscarriedoutinclosecollaborationwithUPVsoastoensurethatthestudentsobtainthelanguagelevelneeded.
B1 2
Interculturalityðics
Toraiseawarenessanddevelopskillsaroundcultureanditsimpactonbehaviorininternationalteams.Studentswilldrawontheirownexperienceoflearningwithinamulti-culturalteamimmersedinahostculture.Reading-implementationofthemethodofethics:analysis,explanationofthedifferentiatedargumentsoftheethicalissue.Knowhowtocomment-discernthepositioningthatappearstousmostrelevantandbeabletoaccountforit.Beabletojustifyandexplaincontradictoryarguments.Program:1)Culture:definitions,metaphors;keyconcepts.Cultureasasourceofinterculturalerrors.2)Crossculturalcommunication:"Talktome"3)Managinganinternationalteam:“WheninRome...“(casestudy;video)4)Culturalperceptionsofthings:marketing,management,negotiation,hiring;5)Studentreports:resultsofexpatriatemanagerinterview6)Studentpresentationsofx-culturaltrainingpackages7)Independent/groupworkonassignmentsandprojects8) Introduction -What is ethics? Distinction between ethics and ethics: stake, history, relevance. Ethics as a social or politicaldimensionofmoralitywhichispersonal:whatispossible,desirable,andnecessaryinagivenpolitical,social,entrepreneurialbody.9) COMPOSITION and not RESOLUTIVE: composed of the Common Principles / Principles proper / Matter / circumstances /intention.Fromexamples(flighttosurvive,revolution,tyrant...)Explaintherelativemiddleofthevirtuesandproportionalityoftherelationsofjustice/injustice.
Noprerequisites
1
Introductiontoseedbusiness
Identifyseveralfactorsgoingtoimpactthewayoforganizingcompaniesonaregionalandglobalscalesuchalongtermactivityasthe breeding and the selection, in relation with transversal technologies and breeder’s profiles: technological traits,
Noprerequisites
4
biotechnologies,markets,climaticchanges,naturalresourcelimitations,exchangesbetweencountriesandcontinents.Researchers and managers from seed companies and from agri-food industries will share their view of current status andprospective futureofbreedingactivities and targets. 15 lectures followedbydiscussion,prepared inadvanceby students fromkeywords.1seminartointroducethePilotCasemodule“designabreedingproject”guidelineswillbegiventostudenttofollow.
Introductiontoalgorithmics
Objectives:- Knowhowtousethefundamentalstructuresofthealgorithmics- Knowhowtoanalyzeaproblemandsolveitwithanalgorithm- Toimplementanalgorithm- Touseaprocedurallanguage(Clanguage)
Contents:- Variables,datatypes,assignments- Conditionalstructure(«if»statement,loops)- Arrays- Functions,- Programmingalgorithms(Clanguage)
Noprerequisites
1
Statistics Thiscourse introducesstudentstothebasictheorybehindthedevelopmentandassessmentofstatisticalanalysistechniques intheareasofpointandintervalestimationandhypothesistesting.Topicsinclude:Pointestimationmethods,includingmethodofmomentsandmaximumlikelihood;Biasandvariance;Mean-squarederrorandtheCramer-Rao inequality; Sufficiency, completeness and exponential families; theRao-Blackwell theoremanduniformlyminimumvariance unbiased estimators; Bayesian estimation methods; Resampling estimation methods, including the jackknife and thebootstrap;Confidence intervalconstructionmethods, including likelihood-based intervals, inversionmethods, intervalsbasedonpivotsandsimpleresampling-basedpercentileintervals;HighestposteriordensityandBayesiancredibilityregions;LikelihoodratiotestsandtheNeymann-Pearsonlemma;Powercalculationsanduniformlymostpowerfultests;Rank-basednon-parametrictests,includingthesign-testandWilcoxontests.LearningOutcomesUponsuccessfulcompletionoftherequirementsofthiscourse,studentsshouldhavetheknowledgeandskillsto:
- Explainthenotionofaparametricmodelandpointestimationoftheparametersofthosemodels.- Explainandapplyapproachestoincludeameasureofaccuracyforestimationproceduresandourconfidenceinthemby
examiningtheareaofintervalestimation.- Assesstheplausibilityofpre-specifiedideasabouttheparametersofamodelbyexaminingtheareaofhypothesistesting.- Explainandapplytheideaofnon-parametricstatistics,whereinestimationandanalysistechniquesaredevelopedthatare
Descriptivestatistics,Probabilities,Linearmodel
2
notheavilydependentonthespecificationsofanunderlyingparametricmodel.- Understandthecomputationalissuesrelatedtotheimplementationofvariousstatisticalinferentialapproaches.
PlantReproductionsystems
Wewillunderstandandappreciatedifferencesinexistingmodesofreproduction.Sexualreproduction.Sexuallifecycles.Structureofflowertypes.Gametogenesis.Pollination.Fertilization.
- Sexualreproduction;Meiosisandfertilization;reproductiveorgansinfloweringplants;plantsexualmorphology.- Importance of reproductive systems for plant breeding. Distinction between cross-and self-pollination. Types of
reproduction- Autogamy(definition),mechanismspromotingorpreventingautogamy,self-incompatibilitysystemsandimplicationsfor
plantbreeding,male-sterilitysystems.Genotypeconversion.Artificialpollination.- Allogamy(definition).Promotingmechanisms.Implicationsforplantbreeding.Inbreedingdepressionandhybridvigor.- Control of hybridization in aperspectiveof seedproduction.Dioecy, self-incompatibility, nuclear and cytoplasmicmale
sterility.
Noprerequisite 2
Plantgenetics1 Introduction to genetics, genes and chromosomes, Mendel’s laws, probabilities in Mendelian inheritance, sex chromosomes,geneticlinkage,Tetradanalysis,extrachromosomalinheritance,epigenetics,populationgenetics
Basicsingenetics
3
Plantgeneticresourcesanddiversity
At the end of this course student will understand the Importance of germplasm in breeding projects. The different types ofevaluationofacollection,morphological, chemical, technological,molecularandtheir representations.Allelic richness,diversitystructure.Howtomanageandusethegeneticdiversity:corecollectionandsamplingstrategies.Programme:
- Teachingofmostadoptedtoolforevaluationofgeneticdiversityandconstructionofcorecollection.- Thesetoolswillbedefinedmorphological,biochemical,technologicalandmolecularstudiestoassessgeneticdiversityin
germplasmsalsoallelicrichnessandconstructionofacorecollection.- Evolutionofphenotypicandgeneticdiversitiesofcommercialvarieties.- Conservationofgermplasm:mechanismsandglobalmaintenance.Geneticresourcescontextinevolution.
Noprerequisite 4
Introductiontoplantpathology
Theobjective is to study theprincipals of theplant-microorganisms interaction. It introduces themajorplant pathogen groups(viruses,viroids,phytoplasmas,bacteria,fungi,nematodesandthehigherplantparasites)andtheabioticplantstresses(causedbyenvironmental factors). It introducesalso the importanceof thebeneficialmicroorganisms (e.g.PGPR,Plant-growth-promoting-rhizobacteria&AM,arbuscularmycorrhizae).Studentsstudythescientificclassificationofthesesmicroorganisms,theirdetectionandquantification,andthegeneralmethodsofcontrol(chemical,biological&genetic).Duringthepracticalwork,studentsfollowexperimentsoftheplant-PGPR-pathogeninteractionsunderthegreenhouseconditions.They prepare the bacterial and fungal inoculum, inoculate plants (resistant and susceptible genotypes), and follow diseaseprogression (visual symptoms, molecular and microscopic diagnosis). They learn the different microbiological methods(preparation media, isolation of microorganisms, replication of bacterial and fungal cultures, using microscopes (classical andelectronic),DNAextractionandrealtimequantitativePCR).
Noprerequisites
3
BreedingStrategiesandmethodsofselection
Studentswillbeabletodefinethebreedinggoalsinthemidtermandlongterm,reasoningthebreedingstrategyadaptedtotheobjectives, species, germplasm, traits to be selected according to the dimension of the breeding program, breeding tools andselectionmethods.Programme:Acoursewillintroducethecultivartypes,derivingfrombreedingstrategiesandmethodsofselectionadaptedtoself-pollinated and open-pollinated species. Practical examples of breeding projects for yield, quality, and resistance to biotic andabioticstresswillbedetailedbyprofessionals.ExampleswillcoverSeedandvegetativelypropagatedspecies.1.Breedingobjectives,programdesignandmanagement;Thechoicesabreederhastomake,likechoiceofparents,typeandsizeofpopulations,changeinallelefrequenciesbyselection,effectofcroptypeonbreedingprogram.2.Mainbreeding strategies;Basedonexamplesondifferent crops,wewill review themain strategies:bulkbreeding,pedigreebreeding, backcross breeding, recurrent selection and synthetic varieties, hybrid breeding and hybrid production systems,mutationbreeding,chromosomebreeding.3.Breedingstrategiesforqualityandfittingwithtechnologicaluses4.Breedingstrategiesforyieldincrease5.Breedingstrategiesfordiseaseresistance,majorresistancegenevspolygenicresistance.6.Breedingstrategiesfortolerancetoabioticstress(droughttolerance,lownitrogenandphosphorustolerance).7.Breedingforlow-inputandfororganic;Specificdevelopmentslikeevolutionarybreedingfordiversityandparticipatorybreedingwillbedescribed.8.Breedingformultiplepurposes;wewillanalysetheimportanceofprioritizingselectionamongtraits.
Noprerequisites
5