PHD in Plant Breeding and Genetics in Germany, Germany is the oldest country in the world. The capital of Germany is Berlin which is one of the largest metropolitan areas of Germany. German has several universities; some of them provide many programs for students to pursue their desired goals. Continue reading to find out more information about PhD in Plant Breeding and Genetics in Germany.
In order to pursue international education, it is required for you to choose the appropriate university and country since your choice will have a considerable impact on your future. Read more about best PhD in Plant Breeding and Genetics in Germany in this article.
Check out more information about 9 plant-breeding-PhD positions in Australia Plant Agriculture (PhD), Plant Breeding and 1,026 PhD-plant-science positions in Germany. More information is available on CollegeLearners.
PhD Position In Plant Science
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A doctorate usually means that an individual is qualified to teach at a college level or to work in a specific field of work. There are two major types of doctoral degrees; a research-oriented degree, and a professional doctoral degree. Doctoral degrees are sometimes referred to as terminal degrees, which means that a final degree is available in a graduate school for students who wish it.
PHD in Plant Breeding and Genetics in Germany
The program leading to the Doctor of Philosophy in Plant Breeding and Plant Genetics provides a broad exposure in the various disciplines involved with plant improvement. The program is truly interdisciplinary with faculty participants from agronomy, biochemistry, botany, entomology, genetics, horticulture, plant pathology, and statistics. Research areas include biochemical and molecular genetics, bioinformatics, biometry, cytogenetics and cytology, genecology, genetics, plant breeding, and quantitative genetics.
The Plant Breeding and Plant Genetics Program has been designated a UW System Center of Excellence. The 50–60 students majoring in the program come from throughout the United States and all over the world. Faculty have included members of the National Academy of Sciences, endowed chair professors, and recipients of the National Council of Plant Breeders “Genetic and Plant Breeding Award.” The University of Wisconsin leads the nation in the diversity of plant breeding programs and number of graduate students trained. Graduates are found in responsible positions with academic institutions, research institutions, and private companies involved in molecular to cultivar development work.
Please consult the table below for key information about this degree program’s admissions requirements. The program may have more detailed admissions requirements, which can be found below the table or on the program’s website. Graduate admissions is a two-step process between academic programs and the Graduate School. Applicants must meet the minimum requirements of the Graduate School as well as the program(s). Once you have researched the graduate program(s) you are interested in, apply online. |
REQUIREMENTS | DETAIL |
---|---|
Fall Deadline | December 1 |
Spring Deadline | September 1 |
Summer Deadline | December 1 |
GRE (Graduate Record Examinations) | Not required. |
English Proficiency Test | Every applicant whose native language is not English or whose undergraduate instruction was not in English must provide an English proficiency test score and meet the Graduate School minimum requirements (https://grad.wisc.edu/apply/requirements/#english-proficiency). |
Other Test(s) (e.g., GMAT, MCAT) | n/a |
Letters of Recommendation Required | 3 |
Satisfactory preparation for graduate study in Plant Breeding and Plant Genetics includes undergraduate coursework in mathematics through differential and integral calculus, general chemistry and organic chemistry, physics, and a comprehensive biology sequence that covers both plant and animal biology and includes labs. Some of this preparatory coursework may be completed during the first year of graduate study. Normally, applicants will have had undergraduate training in the biological or agricultural sciences. All applicants must fulfill the minimum entrance requirements of the Graduate School.
Application Checklist
A complete application should include the following items:
- Graduate School Application: We only accept applications submitted online through the Graduate School.
- Supplementary Application: The supplementary application will appear as a part of the Graduate School’s electronic application once the applicant selects Plant Breeding and Plant Genetics.
- Application Fee: Instructions for paying the application fee are available through the Graduate School’s online application form.
- Statement of Purpose: Your essay should be a concise description of your reasons for choosing to study Plant Breeding and Plant Genetics at the University of Wisconsin. Please include your research interests and career goals as well as a description of your preparation for graduate study including relevant coursework, related employment, research experience, publications, presentations, awards, and honors. The essay may be submitted electronically through the Graduate School’s online application.
- Transcripts: We require all applicants to submit an unofficial transcript in PDF format to their online application. If an applicant is recommended for admission, then they will be required to submit their official transcript to the Graduate School. International academic records must be submitted in the original language and accompanied by an official English translation. Documents must be issued by the institution with an official seal/stamp and an official signature.
- Three Letters of Recommendation, with at least two from academic sources.
- Proof of English Proficiency: Applicants, whose native language is not English, or whose undergraduate instruction was not in English, must follow the Graduate School’s guidelines for proof of English proficiency.
Application Process
Applications for graduate study in Plant Breeding and Plant Genetics must be submitted using the Graduate School’s online application. If you are applying to multiple programs at the University of Wisconsin, make sure you send application materials to each program.
At this time, the graduate program in Plant Breeding and Plant Genetics does not support lab rotations. Applicants are admitted directly into a specific research program with one major professor. Admissions decisions are contingent upon the acceptance of an applicant by a faculty mentor. Because we receive many more applications from qualified applicants than we are able to admit, we highly recommend that applicants directly contact any faculty members with whom they are interested in working.
PhD Plant Breeding and Genetics Scholarship
Resources to help you afford graduate study might include assistantships, fellowships, traineeships, and financial aid. Further funding information is available from the Graduate School. Be sure to check with your program for individual policies and restrictions related to funding.
Program Resources
Financial support may be available through research assistantships (RAs) or fellowships. Fellowships are granted to students with very outstanding academic records. We recommend that your application be complete by the application deadlines in order to be considered for funding. Research assistantships are awarded by individual professors through funds available to their research programs.
Please be advised that you do not need to make a separate application for financial support as your admission application will also serve as an application for assistantships and fellowships.
- Minimum Graduate School Requirements
- Major Requirements
PhD in Genetics and Plant Breeding Abroad
Review the Graduate School minimum academic progress and degree requirements, in addition to the program requirements listed below.
Major Requirements
Mode of Instruction
FACE TO FACE | EVENING/WEEKEND | ONLINE | HYBRID | ACCELERATED |
---|---|---|---|---|
Yes | No | No | No | No |
Mode of Instruction Definitions
Curricular Requirements
REQUIREMENTS | DETAIL |
---|---|
Minimum Credit Requirement | 51 credits |
Minimum Residence Credit Requirement | 32 credits |
Minimum Graduate Coursework Requirement | Half of degree coursework (26 credits out of 51 total credits) must be completed graduate-level coursework; courses with the Graduate Level Coursework attribute are identified and searchable in the university’s Course Guide (http://my.wisc.edu/CourseGuideRedirect/BrowseByTitle). |
Overall Graduate GPA Requirement | 3.00 GPA required. |
Other Grade Requirements | Ph.D. candidates should maintain a 3.0 GPA in all core curriculum courses and may not have any more than two Incompletes on their record at any one time. |
Assessments and Examinations | Doctoral students must pass both the oral preliminary and final thesis exams. |
Language Requirements | No language requirements. |
Doctoral Minor/Breadth Requirements | The doctoral minor is not required for students in the Plant Breeding and Plant Genetics degree. Students who wish to complete a cohesive body of work outside the major may wish to obtain a doctoral minor, and should declare the minor at the certification meeting. Minor requirements are determined by the minor department or program. |
Required Courses
The specific program of study toward a doctoral degree is developed by the student and their major professor. Considerable flexibility in the selection of courses is permitted to meet the needs and interests of the candidate. Of the 51 credits required, students must complete a minimum of 17 credits of coursework (not research credit) and at least 11 credits must come from the Core Curriculum, including at least 2 credits in each of Sections A, B, and C. Students must also complete 3 credits of Plant Breeding seminar (HORT/AGRONOMY/GENETICS 957 Seminar-Plant Breeding).
Core Curriculum
CODE | TITLE | CREDITS |
---|---|---|
A. Plant Breeding | ||
HORT/AGRONOMY 501 | Principles of Plant Breeding | |
HORT/AGRONOMY 502 | Techniques of Plant Breeding | |
HORT/AGRONOMY 812 | Selection Theory for Quantitative Traits in Plants | |
B. Genetics | ||
HORT/GENETICS 550 | Molecular Approaches for Potential Crop Improvement | |
GENETICS 631 | Plant Genetics | |
GENETICS 701 | Advanced Genetics | |
GENETICS/BIOCHEM/BOTANY 840 | Regulatory Mechanisms in Plant Development | |
HORT 875 | Special Topics (Polyploid Genetics; Genetic Analysis with R) | |
C. Quantitative Genetics and Biometry | ||
HORT/F&W ECOL/STAT 572 | Statistical Methods for Bioscience II | |
HORT/AGRONOMY 811 | Biometrical Procedures in Plant Breeding | |
AGRONOMY 771 & AGRONOMY 772 | Experimental Designs and Applications in ANOVA | |
D. Additional Core Courses | ||
BIOCHEM/BOTANY 621 | Plant Biochemistry | |
PL PATH/BOTANY/ENTOM 505 | Plant-Microbe Interactions: Molecular and Ecological Aspects | |
PL PATH 517 | Plant Disease Resistance | |
GENETICS 633 | Population Genetics | |
BOTANY 500 | Plant Physiology |
phd in plant breeding and genetics in australia
9 Plant-Breeding-PhD Positions in Australia
- Genetic analysis of ascorbate and glutathione functions in grapevine. The University of Western Australia | Australia | 23 minutes ago for extended research visits is desired. Demonstrated experience in plant tissue, genetic modification or breeding is desired. Demonstrated experience in molecular biology and biochemistry is desired. Applicants
- Developmental functions of ascorbate and glutathione in plants (PhD top-up scholarship)The University of Western Australia | Australia | 36 minutes ago Title Developmental functions of ascorbate and glutathione in plants (PhD top-up scholarship) Description This PhD top-up will be awarded to a successful applicant for a domestic or international
- CSIRO Postdoctoral Fellowship in Genomics and Advanced Breeding CSIRO | Australia | 2 months ago system. Genomics continues to rapidly advance biological knowledge across a range of diverse species and to revolutionise breeding activities for more sustainable, resilient and productive plants and
- Research Fellow, Economics Deakin University | Melbourne, Victoria | Australia | about 2 months ago participating with colleagues in developing research and maintaining links and partnerships with the wider community. To be successful, you will have: A doctoral qualification (or near completion of PhD
- PhD Scholarship – Genetic and Physiological Characterisation of Cotton Sodicity Tolerance. CSIRO | Australia | about 2 months ago. Scholarship now! CSIRO Agriculture and Food and Western Sydney University (WSU) are offering a joint scholarship to a PhD candidate who has undertaken studies in agricultural science and plant biology. The
- Sugar Industry Postgraduate Research Scholarships (SPRS)The University of Queensland | St Lucia, Queensland | Australia | 23 days ago one of the following eight key focus areas of investment: Optimally-adapted varieties, plant breeding and release Soil health, nutrient management and environmental sustainability Pest, disease and weed
- PhD scholarship: Regulators of female reproductive development in cowpea. The University of Queensland | St Lucia, Queensland | Australia | 21 days ago director, Prof Anna Koltunow, based in the Centre for Crop Science. Hy-Gain aims to ensure the technology is compatible with plant breeding to support the future, rapid delivery of new high yielding sorghum
- PhD scholarship: Exploring the genome landscape of heterosis in sorghum. The University of Queensland | St Lucia, Queensland | Australia | 21 days agodirector, Prof Anna Koltunow, based in the Centre for Crop Science. Hy-Gain aims to ensure the technology is compatible with plant breeding to support the future, rapid delivery of new high yielding sorghum
- HDR Scholarship – Population dynamics of shorebirds in peril. Deakin University | Melbourne, Victoria | Australia | 9 days ago Project Supervisor Prof. Marcel Klaassen School OR Institute School of Life and Environmental Sciences Faculty Faculty of Science, Engineering and Built Environment Location Geelong Waurn Ponds.
PhD in Plant Science in Germany
The PhD in Plant Agriculture program of study offers specialization in four broad fields of the Plant Sciences: 1) plant breeding and genetics; 2) plant biochemistry and physiology; 3) crop production systems; and 4) bioproducts.
- Plant Breeding and Genetics has long been a key focus of our faculty and students. Through breeding and biotechnology, Guelph researchers help society by developing new field-crop, fruit, ornamental and vegetable cultivars that are grown in Canada and worldwide. Also, Plant Agriculture faculty and students seek both to understand the fundamental mechanisms that enable plant improvements and to discover novel methodologies and technologies that will be the foundation for future advances.
- Plant Biochemistry and Physiology is a broad discipline. Faculty and students in this area study the response of plants to environmental change and plant development at the ecosystem, whole plant, and molecular levels. Students investigate ecologically friendly management strategies, study underlying molecular and biochemical mechanisms that regulate plant development, investigate how plant performance can be optimized in the field or closed environments, and contribute to cultivar development
- Crop Production Systems research seeks to develop or test agricultural management strategies for yield improvement and economically and environmentally sound production practices in field and horticultural crops such as ornamentals and turf. Students assist producers and industry in the control of weeds, insects and plant diseases, and investigate new management protocols for production of high quality crops.
- Bioproducts is a multi-disciplinary field that deals with background sciences ranging from chemical engineering to plant science. Students deal with products and materials made from cellulose, oil, protein, starch and other compounds derived from various plant parts such as seeds, stalks/stovers, hulls and cobs of crop plants. Students will develop their expertise in analytical methods, factors affecting quality of lant-derived raw materials, engineering (including bioengineering of bioproducts) biomaterials, and biocomposites.
phd in plant breeding and genetics in usa
This program ensures broad training while providing the flexibility to focus on areas of greatest interest. Faculty actively engage in training of students, the development of new crop varieties, and basic research on the genetics and molecular understanding of crop traits.
Plant Breeding, Genetics & Genomics is the science of creating new and improved plant varieties that are higher yielding, more disease resistant, more nutritious, or simply of greater ornamental value. The Institute faculty actively engage in training of graduate students, the development of new crop varieties, and basic research on the genetics and understanding of crop traits important to agriculture and human kind. The Institute has a strong philosophy that modern plant breeding should be integrated with modern genomics and biotechnology to achieve maximum efficiency.
Degree Awarded: PhD
Degree Code: PHD_PBGG
The Institute for Plant Breeding, Genetics and Genomics has been approved at the University of Georgia as an interdepartmental organization to coordinate and enhance the various plant improvement research efforts on campus. The Institute will offer MS and PhD in Plant Breeding, Genetics and Genomics. The curricula for these degrees have been specifically designed to train students in plant breeding or in supporting areas of plant genetics and genomics, taking advantage of all the latest technological developments in the field.
Ph.D. in Plant Breeding and Genetics Program Description
Candidates for a Ph.D. in Plant Breeding and Genetics are expected to exhibit broad knowledge of the field, as well as produce independent, publishable research. Common requirements to pursue this degree include a range of coursework, qualifying or oral exams, and the preparation and defense of a dissertation. Some universities may require participation in teaching activities as well. Some classes that may be encountered by Ph.D. students include:
Plant Genetics
This type of course is likely to provide information on the structure and function of plant genomes. Students might be introduced to modes of reproduction, genome structure, and epigenetics. The goal may be to gain a thorough grounding in the methodologies used in plant genetics in order to carry out independent research.
Genetically Engineered Crops
A course in genetically engineered crops may provide an introduction to what these crops are and how they differ from other crops. Specific topics might include insect and disease resistance, improvement in nutritional value, and environmental remediation. Students may consider the risk and benefits of GMO crops.
Plant Disease Resistance
An important consideration in the breeding of plants and crops is resistance to disease. This kind of course may introduce techniques for evaluating plant resistance, including information on host signaling. Students might consider why disease resistance can fail, as well.
Nutritional Quality Improvement of Food Crops
Some individuals may be interested in the field of plant breeding and genetics in order to explore and remedy issues of malnutrition. This type of course might explore issues of biofortification of crops in order to improve their nutritional quality. Students might review micronutrients, prebiotics, proteins, and lipids involved in the nutritional quality of plants.
Computational Genetics and Genomics
A course in computational genetics and genomics may be essential as students conduct independent research. The sort of course may cover sequence alignment, Markov models, and ancestry inference. Computer programming may be required.
Plant Breeding Practicum
A practicum could provide supervised, practical experience in utilizing the breeding techniques that have been studied. Students might be exposed to techniques of cross-breeding, planting, and selecting plant specimens. Overall program development and implementation may be an area of interest as well.