This curriculum vitae outlines the educational and professional background of Jerzy Henryk Czembor. He received his MSc in plant physiology in 1989 and his PhD in plant pathology from Montana State University in 1996. Since then, he has held various positions at the Plant Breeding and Acclimatization Institute including head of the Department of Plant Breeding and Genetics. His research focuses on identifying disease resistance in barley and wheat, incorporating resistance into improved varieties, and integrated pest management. He has led over 15 national research projects and published extensively on powdery mildew, rust, and other fungal pathogens of cereals.
Kumaryasava is an alcoholic Ayurvedic formulation prepared by the fermentation of Aloe vera. Flowers of Woodfordia fruticosa are added as inoculums for fermentation process.
American Journal of Bioterrorism, Biosecurity and Biodefense is an international scholarly peer reviewed Open Access journal, aims to promote the research in all the related fields of Bioterrorism, Biosecurity and Biodefence.
American Journal of Bioterrorism, Biosecurity and Biodefense is a comprehensive Open Access peer reviewed scientific Journal that covers multidisciplinary fields. We provide limitless access towards accessing our literature hub with colossal range of articles. The journal aims to publish high quality varied article types such as Research, Review, Short Communications, Case Reports, Perspectives (Editorials), Clinical Images.
American Journal of Bioterrorism, Biosecurity and Biodefense support the scientific modernization and enrichment in Bioterrorism, Biosecurity and Biodefense research community by magnifying access to peer reviewed scientific literary works. Austin also brings universally peer reviewed member journals under one roof thereby promoting knowledge sharing, collaborative and promotion of multidisciplinary science.
Atlanta Botanical Garden Science Cafe: Medicines from Nature - 2014Cassandra Quave
In 2014, Dr. Quave presented a Science Cafe talk at Atlanta Botanical Gardens: "Medicines From Nature: Adventures of a Medical Ethnobotanist"
Abstract:
Ethnobotany is the study of human interactions with plants. It has perhaps been best defined as the science of survival as it involves the study of plants used in our daily lives for food, medicine, shelter, art, and much more. In this science café, Dr. Quave will discuss her research on medicinal plants for the treatment of infectious disease. From remote regions of the Amazon to volcanic islands in the Mediterranean and isolated mountains in the Balkans, Quave has conducted fieldwork in some of the most biologically diverse regions of the planet. She will share some of her adventures as a medical ethnobotanist and explain how traditional knowledge may be the key to the discovery of new life-saving medicines.
Immunology and Microbiology,Host-Microbe Interactionsvarinder kumar
Immunology and Microbiology
Host-Microbe Interactions
Cellular Immunity
Principles of Immunization
Vaccines
Examples of bacterial exotoxins
Genetics of Pathogenicity
Mechanisms of Pathogenicity
Future developments & information
Applications of Principles of Immunity
Effects of Antigen-Antibody Interactions-2
Kumaryasava is an alcoholic Ayurvedic formulation prepared by the fermentation of Aloe vera. Flowers of Woodfordia fruticosa are added as inoculums for fermentation process.
American Journal of Bioterrorism, Biosecurity and Biodefense is an international scholarly peer reviewed Open Access journal, aims to promote the research in all the related fields of Bioterrorism, Biosecurity and Biodefence.
American Journal of Bioterrorism, Biosecurity and Biodefense is a comprehensive Open Access peer reviewed scientific Journal that covers multidisciplinary fields. We provide limitless access towards accessing our literature hub with colossal range of articles. The journal aims to publish high quality varied article types such as Research, Review, Short Communications, Case Reports, Perspectives (Editorials), Clinical Images.
American Journal of Bioterrorism, Biosecurity and Biodefense support the scientific modernization and enrichment in Bioterrorism, Biosecurity and Biodefense research community by magnifying access to peer reviewed scientific literary works. Austin also brings universally peer reviewed member journals under one roof thereby promoting knowledge sharing, collaborative and promotion of multidisciplinary science.
Atlanta Botanical Garden Science Cafe: Medicines from Nature - 2014Cassandra Quave
In 2014, Dr. Quave presented a Science Cafe talk at Atlanta Botanical Gardens: "Medicines From Nature: Adventures of a Medical Ethnobotanist"
Abstract:
Ethnobotany is the study of human interactions with plants. It has perhaps been best defined as the science of survival as it involves the study of plants used in our daily lives for food, medicine, shelter, art, and much more. In this science café, Dr. Quave will discuss her research on medicinal plants for the treatment of infectious disease. From remote regions of the Amazon to volcanic islands in the Mediterranean and isolated mountains in the Balkans, Quave has conducted fieldwork in some of the most biologically diverse regions of the planet. She will share some of her adventures as a medical ethnobotanist and explain how traditional knowledge may be the key to the discovery of new life-saving medicines.
Immunology and Microbiology,Host-Microbe Interactionsvarinder kumar
Immunology and Microbiology
Host-Microbe Interactions
Cellular Immunity
Principles of Immunization
Vaccines
Examples of bacterial exotoxins
Genetics of Pathogenicity
Mechanisms of Pathogenicity
Future developments & information
Applications of Principles of Immunity
Effects of Antigen-Antibody Interactions-2
Phage Endolysins as Potential Antimicrobials against Multidrug Resistant Vibr...Pig Farm Solution
Phage Endolysins as Potential Antimicrobials against Multidrug Resistant Vibrio alginolyticus and Vibrio parahaemolyticus: Current Status of Research and Challenges Ahead
Nandita Matamp and Sarita G. Bhat *
Department of Biotechnology, Cochin University of Science and Technology, Kochi-682022, Kerala, India; nandita.matamp@gmail.com
* Correspondence: saritagbhat@gmail.com; Tel.: 91-984-603-3486. Fax: 0484-257-7595
Received: 25 February 2019; Accepted: 15 March 2019; Published: 18 March 2019
Identification of Race/strain of Phytopathogenic Fungi through Conventional A...Sarda Konjengbam
Detection and identification of fungi has relied on a combination of microscopy and culture based techniques. Conventional methods often rely on identification of disease symptoms, isolation and culturing of environmental organisms, and laboratory identification by morphology and biochemical tests. These methods, although the cornerstone of fungal diagnostics, can lead to problems in identification, resulting in incorrect interpretation, diagnosis and ultimately treatment. The methods rely on experienced, skilled laboratory staff, the ability of the organism to be cultured, are time consuming, non quantitative, prone to contamination and error and often delay management (Atkins and Clark, 2004). During the last decades, the advent of molecular biology promised to offer radical alternatives in the detection and enumeration of fungal pathogens. Molecular technology increases understanding of the biology and population structures of plant pathogens, provides quick and accurate answers to epidemiological questions about plant diseases, and supports disease management decisions. New, rapid screening methods are being developed and increasingly used in all aspects of fungal diagnostics.
Host-pathogen Interactions, Molecular Basis and Host Defense: Pathogen Detect...QIAGEN
Host–pathogen interactions are strikingly complex during infection. This slidedeck provides an overview of the molecular basis of these intricate interactions: the impact of microbiota on innate and adaptive immunity, metabolism, and insulin resistance and host defense mechanisms. Various research tools will be introduced to simplify and streamline each step of studying the host response, enabling detection of pathogens, analysis of gene expression and regulation, epigenetic modification, genotyping and signal transduction pathway activation.
Project Report on Monoclonal antibodies By VanshikaVanshikaBeniwal
HYBRIDOMA TECHNOLOGY
Monoclonal antibodies (MAbs) are a kind of immunological instrument that has been employed in immunology, biotechnology, biochemistry, and applied biology for a protracted time.
Functional Genomics of Plant Pathogen interactions in Wheat Rust PathosystemSenthil Natesan
Cereal rust fungi are pathogens of major importance to agriculture, threatening cereal production worldwide. Targeted breeding for resistance, based on information from fungal surveys and population structure analyses of virulence, has been effective. Nevertheless, breakdown of resistance occurs frequently and continued efforts are needed to understand how these fungi overcome resistance and to determine the range of available resistance genes. The development of genomic resources for these fungi and their comparison has released a torrent of new ideas and approaches to use this information to assist pathologists and agriculture in general. The sequencing of gene transcripts and the analysis of proteins from haustoria has yielded candidate virulence factors among which could be defence-triggering avirulence genes. Genome-wide computational analyses, including genetic mapping and transcript analyses by RNA sequencing of many fungal isolates, will predict many more candidates (Bakkeren et al., 2012)
Dissecting the mechanisms of host-pathogen systems like wheat-rust, including pathogen counter-defenses will ensure a step ahead towards understanding current outcomes of interactions from a co-evolutionary point of view, and eventually move a step forward in building more durable strategies for management of diseases caused by fungi (Hadrami et al.,2012)
The study of pathogenomics attempts to utilize genomic and metagenomics data gathered from high through-put technologies to understand microbe diversity and interaction as well as host-microbe interactions involved in causing the disease. Pathogenomics researchers are generating and analyzing genome sequences of diverse bacterial, oomycete, fungal and viral pathogens to identify genetic sources of virulence, understand differences observed among related pathogens, guide the development of diagnosis tools capable of discriminating among specific strains, reveal sources of host resistance and understand the dynamics of host-microbe interactions and the diseases they cause .
Alan Lesniewicz Memorial Lecture at UIC - July 2015Cassandra Quave
This is the keynote lecture given at the University of Illinois at Chicago Garden Walk event in the department of Pharmacognosy. The objectives of the talk were:
·Discuss the role of medical ethnobotany in drug discovery efforts
·Explore state-of-the-art research techniques that examine the activity of botanical natural products with next generation antibiotic discovery efforts focused on “alternative targets”, such as bacterial communication systems
·Provide examples of current research underway by her group both in the field (especially through fieldwork in the Mediterranean) and the lab (natural product research on multidrug resistant bacteria).
The Edge of Tomorrow — Plant Health in the 21st CenturySophien Kamoun
Presented at the ICPP2018 International Congress of Plant Pathology Plenary Session - Plant Health is Earth’s Wealth, Monday, July 30, 2018. See notes and acknowledgments at http://kamounlab.tumblr.com/post/176385835530/the-edge-of-tomorrow-plant-health-in-the-21st
FAU Frontiers in Science Lecture: Anti-infective drugs from nature - 2014Cassandra Quave
In 2014, Dr. Quave presented the keynote for the Frontiers in Science Public Lecture Series at Florida Atlantic University.
Abstract:
In the face of widespread multidrug resistance, new antibiotics are in high demand. In this talk, Dr. Quave discusses the ethnobotanical approach to drug discovery, and the critical role that natural products will play in the future of healthcare.
Ethnobotanical uses of wild flora and fungi on the circum-Sicilian island of ...Cassandra Quave
This is a presentation given at the 2015 meeting of the Society for Economic Botany.
Abstract:
In 1969, Galt and Galt conducted an ethnobotanical survey [1] in the community of Khamma on the circum-Sicilian volcanic island of Pantelleria, located 67 km from the Tunisian coast. Since then, a number of botanical studies concerning the local wild flora and cultivation of the zibebo grape and capers have been conducted, but none have investigated traditional ecological knowledge regarding the use of wild plants and fungi. Here, 45 years later, we revisit this topic, examining the current day knowledge and practices concerning wild plants and fungi on the island. A total of 42 in-depth interviews were conducted in June 2014 in six communities. All interviews were conducted in person in Italian with prior informed consent. We employed two primary means of eliciting responses concerning traditional practices; informants were asked to: 1) free-list the most commonly used plants for wild foods, general medicine, and skin remedies; and 2) view and discuss a booklet composed of photos of taxa listed in the Galt study.
A total of 86 botanical and 19 fungal taxa representing 54 families were cited by the study participants. While many plant-based traditions have disappeared from daily practice, especially those related to traditional fishing and hunting, they remain in the memories of the eldest subset of the population. For example, one of the most pervasive species in the landscape, Opuntia ficus-indica, has current day uses that persist (e.g., food source and shade source for cultivated vegetables), but its past applications were much more diverse, and included manipulation into hunting snares for birds. Other predominant flora included a number of Euphorbia spp., whose toxic latex was regularly used as a fish poison. Fungi, on the other hand, represent an important source of wild food today, and are widely recognized and regularly consumed. In conclusion, we have found that traditional e knowledge remains important to everyday practices of Pantescans, ranging in applications from wild foods, agricultural tools, and traditional medicines.
Fernando Vaquero-El impacto de las ciencias ómicas en la medicina, la nutrici...Fundación Ramón Areces
El 29 de marzo de 2016 celebramos un Simposio Internacional sobre el 'Impacto de las ciencias ómicas en la medicina, nutrición y biotecnología'. Organizado por la Fundación Ramón Areces en colaboración con la Real Academia Nacional de Medicina y BioEuroLatina, abordó cómo un mejor conocimiento del genoma humano está permitiendo notables avances hacia una medicina de precisión.
Phage Endolysins as Potential Antimicrobials against Multidrug Resistant Vibr...Pig Farm Solution
Phage Endolysins as Potential Antimicrobials against Multidrug Resistant Vibrio alginolyticus and Vibrio parahaemolyticus: Current Status of Research and Challenges Ahead
Nandita Matamp and Sarita G. Bhat *
Department of Biotechnology, Cochin University of Science and Technology, Kochi-682022, Kerala, India; nandita.matamp@gmail.com
* Correspondence: saritagbhat@gmail.com; Tel.: 91-984-603-3486. Fax: 0484-257-7595
Received: 25 February 2019; Accepted: 15 March 2019; Published: 18 March 2019
Identification of Race/strain of Phytopathogenic Fungi through Conventional A...Sarda Konjengbam
Detection and identification of fungi has relied on a combination of microscopy and culture based techniques. Conventional methods often rely on identification of disease symptoms, isolation and culturing of environmental organisms, and laboratory identification by morphology and biochemical tests. These methods, although the cornerstone of fungal diagnostics, can lead to problems in identification, resulting in incorrect interpretation, diagnosis and ultimately treatment. The methods rely on experienced, skilled laboratory staff, the ability of the organism to be cultured, are time consuming, non quantitative, prone to contamination and error and often delay management (Atkins and Clark, 2004). During the last decades, the advent of molecular biology promised to offer radical alternatives in the detection and enumeration of fungal pathogens. Molecular technology increases understanding of the biology and population structures of plant pathogens, provides quick and accurate answers to epidemiological questions about plant diseases, and supports disease management decisions. New, rapid screening methods are being developed and increasingly used in all aspects of fungal diagnostics.
Host-pathogen Interactions, Molecular Basis and Host Defense: Pathogen Detect...QIAGEN
Host–pathogen interactions are strikingly complex during infection. This slidedeck provides an overview of the molecular basis of these intricate interactions: the impact of microbiota on innate and adaptive immunity, metabolism, and insulin resistance and host defense mechanisms. Various research tools will be introduced to simplify and streamline each step of studying the host response, enabling detection of pathogens, analysis of gene expression and regulation, epigenetic modification, genotyping and signal transduction pathway activation.
Project Report on Monoclonal antibodies By VanshikaVanshikaBeniwal
HYBRIDOMA TECHNOLOGY
Monoclonal antibodies (MAbs) are a kind of immunological instrument that has been employed in immunology, biotechnology, biochemistry, and applied biology for a protracted time.
Functional Genomics of Plant Pathogen interactions in Wheat Rust PathosystemSenthil Natesan
Cereal rust fungi are pathogens of major importance to agriculture, threatening cereal production worldwide. Targeted breeding for resistance, based on information from fungal surveys and population structure analyses of virulence, has been effective. Nevertheless, breakdown of resistance occurs frequently and continued efforts are needed to understand how these fungi overcome resistance and to determine the range of available resistance genes. The development of genomic resources for these fungi and their comparison has released a torrent of new ideas and approaches to use this information to assist pathologists and agriculture in general. The sequencing of gene transcripts and the analysis of proteins from haustoria has yielded candidate virulence factors among which could be defence-triggering avirulence genes. Genome-wide computational analyses, including genetic mapping and transcript analyses by RNA sequencing of many fungal isolates, will predict many more candidates (Bakkeren et al., 2012)
Dissecting the mechanisms of host-pathogen systems like wheat-rust, including pathogen counter-defenses will ensure a step ahead towards understanding current outcomes of interactions from a co-evolutionary point of view, and eventually move a step forward in building more durable strategies for management of diseases caused by fungi (Hadrami et al.,2012)
The study of pathogenomics attempts to utilize genomic and metagenomics data gathered from high through-put technologies to understand microbe diversity and interaction as well as host-microbe interactions involved in causing the disease. Pathogenomics researchers are generating and analyzing genome sequences of diverse bacterial, oomycete, fungal and viral pathogens to identify genetic sources of virulence, understand differences observed among related pathogens, guide the development of diagnosis tools capable of discriminating among specific strains, reveal sources of host resistance and understand the dynamics of host-microbe interactions and the diseases they cause .
Alan Lesniewicz Memorial Lecture at UIC - July 2015Cassandra Quave
This is the keynote lecture given at the University of Illinois at Chicago Garden Walk event in the department of Pharmacognosy. The objectives of the talk were:
·Discuss the role of medical ethnobotany in drug discovery efforts
·Explore state-of-the-art research techniques that examine the activity of botanical natural products with next generation antibiotic discovery efforts focused on “alternative targets”, such as bacterial communication systems
·Provide examples of current research underway by her group both in the field (especially through fieldwork in the Mediterranean) and the lab (natural product research on multidrug resistant bacteria).
The Edge of Tomorrow — Plant Health in the 21st CenturySophien Kamoun
Presented at the ICPP2018 International Congress of Plant Pathology Plenary Session - Plant Health is Earth’s Wealth, Monday, July 30, 2018. See notes and acknowledgments at http://kamounlab.tumblr.com/post/176385835530/the-edge-of-tomorrow-plant-health-in-the-21st
FAU Frontiers in Science Lecture: Anti-infective drugs from nature - 2014Cassandra Quave
In 2014, Dr. Quave presented the keynote for the Frontiers in Science Public Lecture Series at Florida Atlantic University.
Abstract:
In the face of widespread multidrug resistance, new antibiotics are in high demand. In this talk, Dr. Quave discusses the ethnobotanical approach to drug discovery, and the critical role that natural products will play in the future of healthcare.
Ethnobotanical uses of wild flora and fungi on the circum-Sicilian island of ...Cassandra Quave
This is a presentation given at the 2015 meeting of the Society for Economic Botany.
Abstract:
In 1969, Galt and Galt conducted an ethnobotanical survey [1] in the community of Khamma on the circum-Sicilian volcanic island of Pantelleria, located 67 km from the Tunisian coast. Since then, a number of botanical studies concerning the local wild flora and cultivation of the zibebo grape and capers have been conducted, but none have investigated traditional ecological knowledge regarding the use of wild plants and fungi. Here, 45 years later, we revisit this topic, examining the current day knowledge and practices concerning wild plants and fungi on the island. A total of 42 in-depth interviews were conducted in June 2014 in six communities. All interviews were conducted in person in Italian with prior informed consent. We employed two primary means of eliciting responses concerning traditional practices; informants were asked to: 1) free-list the most commonly used plants for wild foods, general medicine, and skin remedies; and 2) view and discuss a booklet composed of photos of taxa listed in the Galt study.
A total of 86 botanical and 19 fungal taxa representing 54 families were cited by the study participants. While many plant-based traditions have disappeared from daily practice, especially those related to traditional fishing and hunting, they remain in the memories of the eldest subset of the population. For example, one of the most pervasive species in the landscape, Opuntia ficus-indica, has current day uses that persist (e.g., food source and shade source for cultivated vegetables), but its past applications were much more diverse, and included manipulation into hunting snares for birds. Other predominant flora included a number of Euphorbia spp., whose toxic latex was regularly used as a fish poison. Fungi, on the other hand, represent an important source of wild food today, and are widely recognized and regularly consumed. In conclusion, we have found that traditional e knowledge remains important to everyday practices of Pantescans, ranging in applications from wild foods, agricultural tools, and traditional medicines.
Fernando Vaquero-El impacto de las ciencias ómicas en la medicina, la nutrici...Fundación Ramón Areces
El 29 de marzo de 2016 celebramos un Simposio Internacional sobre el 'Impacto de las ciencias ómicas en la medicina, nutrición y biotecnología'. Organizado por la Fundación Ramón Areces en colaboración con la Real Academia Nacional de Medicina y BioEuroLatina, abordó cómo un mejor conocimiento del genoma humano está permitiendo notables avances hacia una medicina de precisión.
Key Lime Interactive's Principal Researcher/Director, Andrew Schall, and Facebook User Researcher, Jennifer Romano Bergstrom, take a deep dive into eye tracking the mobile user experience. View the slides from the webinar.
A presentation of the head of the National Centre for Plant Genetic Resources: Polish Genebank concerning plant genetic resources conservation in Poland.
Breeding for Resilience: A Strategy for Organic and Low-Input Farming Systems
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For more information, Please see websites below:
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Organic Edible Schoolyards & Gardening with Children =
http://scribd.com/doc/239851214 ~
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Double Food Production from your School Garden with Organic Tech =
http://scribd.com/doc/239851079 ~
`
Free School Gardening Art Posters =
http://scribd.com/doc/239851159 ~
`
Increase Food Production with Companion Planting in your School Garden =
http://scribd.com/doc/239851159 ~
`
Healthy Foods Dramatically Improves Student Academic Success =
http://scribd.com/doc/239851348 ~
`
City Chickens for your Organic School Garden =
http://scribd.com/doc/239850440 ~
`
Simple Square Foot Gardening for Schools - Teacher Guide =
http://scribd.com/doc/239851110 ~
Asia Regional Planning Meeting-Integrated Crop Management and Climate Change ...ICRISAT
To assess the impacts of climatic variability on major pests of various agro-climatic zones of India.To generate strategic knowledge for climate change adaptation and mitigation for pests and diseases using field and simulation studies,to improve capacity of stakeholders & develop a framework for dissemination of climate resilient technologies related to pest and diseases.
Concerns about food safety issues have put considerable pressure on pesticide producers in Europe and worldwide to reduce the levels of pesticide residues in food. The aim of this work is to assess the use of traditional pesticides and their effects, to present perspectives in this field and to identi-fy regulatory needs for their use and implementation. The work is based on a systematic review in which the research problem was defined, primary sources were selected and critically appraised, data were collected, analysed and evaluated, and conclusions were formulated. The state of the pesticide market and the current legal requirements for risk assessment in relation to exposure to chemical sub-stances were reviewed. Food safety issues are presented through the prism of pesticide residues in food. Their widespread use and considerable persistence have made them ubiquitous in the natural environment and their residues pose a threat to the environment and to human and animal health. It has been shown that the most important factor influencing the search for new tools to control diseas-es and pests of crops is the progressive development of resistance of these populations to currently used pesticides. Various alternatives to the phasing out of synthetic pesticides in the form of natural products are therefore being developed to support the development of the natural products market.
The Scientific journal “Norwegian Journal of development of the International Science” is issued 24 times a year and is a scientific publication on topical problems of science.
Quantitative analysis of different soil microbial communities (Bacteria, Fungi, Actinomycetes) responsible for various biological processes and nutrient cycling (C, N and P) in terrestrial ecosystems.
Monitoring CH4, N2O and CO2 emission from rice and rice based cropping system and work out appropriate mitigation option.
Enumeration and isolation of GHG-mobilizing microbes (methanogens, methanotrophs, nitrifiers and denitrifiers).
Evaluation of the interactive effects of greenhouse gases (CO2, CH4 and N2O), temperature, hydrological and microbiological relations on soil carbon decomposition and nutrient release, and their impact on climate change.
5 ulotka agrobank aplikacja monitorowanie wegetacji i prognozowanie plonuJerzy H. Czembor
Projekt AGROBANK
"Stworzenie bioinformatycznego systemu zarządzania narodowymi zasobami genowymi roślin użytkowych oraz rozwój kapitału społecznego i gospodarczego Polski poprzez ochronę i wykorzystanie tych zasobów w procesie świadczenia usług doradztwa rolniczego." #NCBR #gospostrateg
Projekt AGROBANK
"Stworzenie bioinformatycznego systemu zarządzania narodowymi zasobami genowymi roślin użytkowych oraz rozwój kapitału społecznego i gospodarczego Polski poprzez ochronę i wykorzystanie tych zasobów w procesie świadczenia usług doradztwa rolniczego." #NCBR #gospostrateg
3 ulotka agrobank system zarzadzania bankiem genów 24 06 2021Jerzy H. Czembor
Projekt AGROBANK
"Stworzenie bioinformatycznego systemu zarządzania narodowymi zasobami genowymi roślin użytkowych oraz rozwój kapitału społecznego i gospodarczego Polski poprzez ochronę i wykorzystanie tych zasobów w procesie świadczenia usług doradztwa rolniczego." #NCBR #gospostrateg
2 ulotka agrobank charakterystyka zasobów genetycznychJerzy H. Czembor
Projekt AGROBANK
"Stworzenie bioinformatycznego systemu zarządzania narodowymi zasobami genowymi roślin użytkowych oraz rozwój kapitału społecznego i gospodarczego Polski poprzez ochronę i wykorzystanie tych zasobów w procesie świadczenia usług doradztwa rolniczego." #NCBR #gospostrateg
Projekt AGROBANK
"Stworzenie bioinformatycznego systemu zarządzania narodowymi zasobami genowymi roślin użytkowych oraz rozwój kapitału społecznego i gospodarczego Polski poprzez ochronę i wykorzystanie tych zasobów w procesie świadczenia usług doradztwa rolniczego." #NCBR #gospostrateg
Pole agrobank pb pw jh czembor 24 06 2021 radzikówJerzy H. Czembor
Prezentacja / omówienie - poletek doświadczalnych projektu
AGROBANK (NCBR) oraz materiałów jęczmienia z Programu Wieloletniego i Postępu Biologicznego (MRiRW).
Jerzy H. Czembor
II Ogólnopolski Pokaz Polowy Postępu Genetycznego Odmian Roślin Uprawnych
w #IHAR-PIB, Instytucie #MRiRW w Radzikowie
WYKŁAD:
Projekt AGROBANK: System bioinformatyczny zarządzania narodowymi zasobami genetycznymi roślin użytkowych dla usług doradztwa rolniczego.
- w #IHAR-PIB, Instytucie #MRiRW w Radzikowie - 24.06.2021
=> II Ogólnopolski Pokaz Polowy Postępu Genetycznego Odmian Roślin Uprawnych, organizatorzy => #IHAR-PIB i #COBORU
Gromadzenie i zachowanie zasobów genowych roślin użytkowych w Polsce 2015–2017 (Collection and preservation of crop genetic resources in Poland 2015–2017)
1. CURRICULUM VITAE
JERZY HENRYK CZEMBOR
PERSONAL DATA:
Year and place of birth: 1965, Kluczbork, Poland,
Work address: Plant Breeding and Acclimatization Institute –National
Research Institute (IHAR-PIB), Radzikow, 05-870 Blonie, Poland.
Scientific disciplines:
agricultural sciences, plant pathology, plant physiology, genetics, plant
breeding, molecular biology, integrated pest management.
Specialization:
phytopathology, mycology, plant genetics, molecular genetics, plant
breeding, breeding for disease resistance, cereals, biotechnology, evaluation
of genetic resources, food quality and safety, environment protection,
integrated plant protection, integrated pest management, organic farming,
GMO, ecology, bioethics.
Specific specialization:
Powdery mildew and rusts on barley, wheat and triticale, pathogens on cereals, mechanisms of plant resistance to
fungal pathogens, screening landraces and wild forms for resistance, molecular breeding, marker assisted
selection, breeding of cereals for organic agriculture, IPM strategies for production of cereal crops, plant genetic
resources.
RSEARCH ACTIVITY:
Education, scientific degrees and positions:
1989 – MSc degree (Plant Physiology) (5 years, 10 terms) – SGGW Agricultural University of Warsaw, Poland
in cooperation with University of Stuttgart-Hohenheim, Germany,
thesis title: “Evaluation of influence of growth regulator RSW 0411 on growth, development and yield
formation of white lupin (Lupinus albus L.) cultivar Kalina”;
Professors in my MSc Committee: Emil Nalborczyk, SGGW, Poland (chair), Walter Aufhamer,
University of Stuttgart-Hohenheim, Germany.
1990 – Postgraduate Study (Plant Breeding) (2 terms, 10 courses), Krakow Agriculture University, Poland;
1996 – Ph.D. degree (Plant Pathology) (4 years, 11 terms, 28 courses) – Plant Pathology Department, Montana
State University, Bozeman, USA,
thesis title: “Presence and expression of resistance genes to powdery mildew of barley in selections from
Tunisian barley landraces”.
Professors in my PhD Committee: Albert Scharen (chair), Mareike R. Johnston, John Martin, Luther
Talbert, John E. Sherwood.
2006 – Doktor habilitowany (Assistant Professor) – IHAR Radzikow, monograph: “Powdery mildew
[Blumeria graminis (DC.) E. O. Speer f. sp. hordei] resistance in landraces of barley (Hordeum vulgare
L.)”
2007 – Docent – (position) nomination by Minister (Ministry of Agriculture and Rural Development).
2010 – Professor of IHAR-PIB – (position) nomination by Director of IHAR, approved by Sci. Council.
2012 – Professor of Agriculture – nomination by President of the Republic of Poland.
2. 2
Professional experience:
1989 – 1992 – Research assistant, Radiobiology Dep., IHAR - Radzików;
1992 – 1996 – Ph.D. student, Plant Pathology Dep., Montana State University, Bozeman, USA;
1996 – 2006 – Adjunct, Plant Genetics and Plant Breeding Dep., IHAR – Radzików;
2006 – 2010 – Docent, IHAR Radzikow;
2010 – 2012 – Professor of IHAR-PIB Radzikow (Associate Professor);
2003 – 2006 – Coordinator of EU Centre of Excellence "Crop Improvement Centre for Sustainable Agriculture"
CICSA at IHAR Radzikow;
2008 – present – Head of Laboratory of Applied Genetics;
2010 – present – Full Professor;
2011 – present – Head of Department of Plant Breeding and Genetics;
2012 – 2016 – election to XVI Science Council of IHAR-PIB;
2013 – present – Coordinator of “Cereals” projects in “Creation and Use of Biological Improvement in Plant
Breeding” - IHAR-PIB 25 projects in statutory activities area – 1;
2013 – present – Coordinator of “Cereals” projects in “Basic Research for Biological Improvement in Crop
Production, Funded by the Ministry of Agriculture and Rural Development” – 15 IHAR-PIB projects in
area – 4.
Didactics:
Prof. dr hab. Jerzy H. Czembor conducted more than 50 lectures and seminars (both in English and Polish).
Supervisor (promoter) of 2 PhD projects:
2010 - PhD thesis by Aleksandra Pietrusinska, IHAR Radzikow, title: Introduction of resistance gene Lr41 for
leaf rust (Puccinia recondita f.sp. tritici) and resistance gene Pm21 for powdery mildew (Blumeria gramnis f.sp.
tritici) into winter wheat.
Research conducted in 2 projects:
- EU Integrated Project BIOEXPLOIT “Exploitation of natural plant biodiversity for the production of
pesticide-free food”
- Polish Promoter project N N310 147035, 2008-2009, Ministry of Science and Higher Education.
2012 - PhD thesis by Olga Domeradzka, IHAR Radzikow, title: Pathogenicity of powdery mildew (Blumeria
graminis (DC.) Speer) on triticale (x Triticosecale Wittm.) in Poland.
Six thematic blocks of my research:
1. Identification of new sources of resistance to powdery mildew, leaf rust and net blotch barley landraces and
Hordeum spontaneum. Selection of resistant lines from barley landraces and investigation of genetic basis of
their resistance. Differential lines with specific resistance genes and set of differential pathogen isolates are
used.
In general: Plant Genetic Resources.
2. Application of molecular markers (MAS) for identification of resistance genes to Blumeria graminis f.sp.
hordei, Blumeria graminis f.sp. tritici and Puccinia recondita f.sp. tritici.
3. Introduction of effective resistance genes to Blumeria gramins f.sp. hordei, Puccinia hordei, Pyrenophora
teres, Blumeria graminis f.sp. tritici, Puccinia triticina - using both classical and molecular methods.
In general: Pre-breeding for resistance to major cereal pathogens.
4. Monitoring of pathogenicity changes in populations of fungi (Blumeria graminis, Pucinia triticina, Puccinia
striiformis, Pyrenophora spp., Rhynchosporium secalis) causing economically important cereal diseases –
powdery mildew of wheat, barley and triticale, wheat leaf and yellow rust, barley leaf rust, net blotch and
leaf scald.
5. Identification of powdery mildew resistance genes in new barley varieties from Polish Register. Resistance
genes deployment strategies for effective and durable protection of barley to powdery mildew.
6. Pest management in barley and wheat under ecological and sustainable agriculture conditions. Application of
integrated pest management (IPM) principles in wheat and barley protection strategies.
In general: Integrated Pest Management (IPM).
3. 3
Research projects and investigations:
National projects (19):
1989–1992: breeding and genetic study of field bean (Vicia faba) – co-author of 2 cultivars: Sonet and Rajan;
1997– present: Evaluation of pathogenicity of major pathogens of barley and protection of barley using genetic
resistance. Statutory project 1-1-04-3-02 in IHAR-Radzików, Poland;
1998–2001: State Committee for Scientific Research (KBN) grant no. 5 P06A/032/14 titled "Resistance genes to
powdery mildew (Erysiphe graminis DC f.sp. hordei Marchal) of barley in populations of barley
landraces from Morocco and development RAPD markers for these genes" - as winner of TV show
competition "Nobel for Pole" (votes of TV spectators) organised by Polish Public TV and KBN.
2001–2005: Creation of prebreeding material of malting spring barley of high quality. Polish Ministry of
Agriculture and Rural Development (PMARD) grant No. PRhn 4040-139.
2003–2007: Creation of prebreeding material of feeding spring barley resistant to powdery mildew and leaf rust.
PMARD grant No. PRhn 4040-140.
2004–present: Application of DNA markers in breeding of wheat. Statutory project 1-1-01-4-02 in IHAR-
Radzików, Poland
2004–2007: Creation of prebreeding material of winter wheat resistant to powdery mildew, brown rust, yellow
rust and with high quality. PMARD grant No. PRhn 4040-131.
2003–2007: Creation of prebreeding material of winter barley resistant to powdery mildew and net blotch.
PMARD grant No. PRhn 4040-111.
2008–2009: Introduction to winter wheat genes for resistance to leaf rust (Puccinia recondita Rob. ex Desm f.
sp. tritici Eriks. et Henn) and powdery mildew (Blumeria graminis (DC.) E. O. Speer f.sp. tritici).
Promoter grant for PhD of Olga Pietrusinska, Ministry of Science and Higher Education grant No.
N N310 147035.
2008–2013: Determination of interaction between resistance to biotic stresses and economical value
characteristics in spring barley. Programme: Basic Research for Biological Progress in Crop
Production.; Funded by the Ministry of Agriculture and Rural Development. Proj. No. 4-1-04-3-03
(38).
2008–2013: Search for new sources of resistance to pathogenic fungi in spring barley Programme: Basic
Research for Biological Progress in Crop Production.; Funded by the Ministry of Agriculture and
Rural Development. Proj. No. 4-1-04-3-04 (39).
2008–2013: Investigations on interaction between economical high value characteristics and resistance to biotic
and abiotic stresses in winter barley. Programme: Basic Research for Biological Progress in Crop
Production.; Funded by the Ministry of Agriculture and Rural Development. Proj. No. 4-1-04-3-01
(40).
2008–2013: Evaluation and use of primitive forms biodiversity in improvement of barley resistance to
economically important diseases.. Programme: Improving Plants for Sustainable agro-ecosystems,
High Quality Food and Crop Production for non-food purposes. Funded by Ministry of Agriculture
and Rural Development. Proj. No. 3-2-00-0-3, WP 2.3.
2008–2013: Monitoring of pathogenicity changes in populations of fungi (B. graminis, P. recondita, P.
striiformis, Pyrenophora spp., Rhynchosporium secalis) causing economically important cereal
diseases – powdery mildew of wheat, barley and triticale, wheat leaf and yellow rust, barley leaf
rust, net blotch and leaf scald. Programme: Improving Plants for Sustainable agro-ecosystems, High
Quality Food and Crop Production for non-food purposes. Funded by Ministry of Agriculture and
Rural Development. Proj. No. 3-6-00-0-07, WP 6.7.
2014–2020: Interaction between powdery mildew (Blumeria graminis f.sp. hordei) resistance determined by mlo
gene and economical value characteristics in winter barley. Programme: Basic Research for
Biological Improvement in Crop Production.; Funded by the Ministry of Agriculture and Rural
Development Proj. No. 4-1-04-3-01 (27).
2014–2020: Efficiency of pyramiding resistance genes to powdery mildew (Blumeria graminis f.sp. tritici) and
leaf rust (Puccinia triticina) in winter wheat. Programme: Basic Research for Biological
Improvement in Crop Production.; Funded by the Ministry of Agriculture and Rural Development.
Proj. No. 4-1-04-3-02 (9).
2015–2020: Broadening of barley gene pool. Programme: Creation of scientific basis for biological
improvement and plant genetic resources protection as source of innovation and support of
sustainable agriculture and national food security. Funded by Ministry of Agriculture and Rural
Development. WP 2.2, Project No. 3-2-00-0-02.
4. 4
2015–2020: Monitoring of pathogenicity changes in populations of biotrophic fungi on cereals. Programme:
Creation of scientific basis for biological improvement and plant genetic resources protection as
source of innovation and support of sustainable agriculture and national food security. Funded by
Ministry of Agriculture and Rural Development. WP 3.2, Project No. 3-3-00-0-02
International projects (11):
1997– 2000: COST ACTION 817 "Population studies of airborne pathogens on cereals as a means of improving
strategies for disease control",
WG1- Survey on Virulence and Aggressiveness. Subgroup - Barley Powdery Mildew,
WG4 Host Resistance - Partial Resistance;
2000–2002: Danish-Polish grant "Development of an Internet Decision Support System for Cereal Diseases and
Potato Blight in Poland, 2001-2002"
2001–2002: European Union project "Evaluation and Conservation of Barley Genetic Resources to Improve
their Accessibility to Breeders in Europe" - GENRES PL98-104;
2003–2006: Coordinator of EU Centre of Excellence CICSA "Crop Improvement Centre for Sustainable
Agriculture" - at IHAR Radzikow.
WP2 – Workshops and Seminars
WP3 – Capacity building
WP5 – Promotion
WP6 - Coordination
2004–2008: COST ACTION 860 SUSVAR “Sustainable low-input cereal production: required varietal
characteristics and crop diversity” (Management Committee, WG-1, WG-5);
MC Management Committee;
WG-1 The agro-ecosystem: Define ideotypes (ideal combination of traits for low-input farming) in
collaboration with farmers and implement in VCU;
WG-5 Plant-disease complex interactions: An interpretation of the word complex in low-input
systems.
2005–2011: partner in EU Integrated Project BIOEXPLOIT “Exploitation of natural plant biodiversity for the
production of pesticide-free food” (WP-4, WP-5);
WP-4 To explore biodiversity on loci associated with disease resistance in wheat and potato
accessions in gene banks;
WP-5 To design durable disease resistance through marker assisted breeding.
2006–2010: partner in EU network ENDURE “European Network for Durable Exploitation of crop protection
strategies”(IA2, IA3, RA2);
IA2 Creation of a virtual laboratory (centre) for research into crop protection;
IA3 Human resource exchange;
RA2 Designing innovative crop protection strategies.
2006 – present: EuroWheat – internet based platform supporting integrated pest management in wheat.
2010–2014, 2015–2019: member of European Research Group (ERG) (ENDURE activity) – a platform to
ensure the sustainability of crop protection in Europe through scientific excellence, interdisciplinary
research, and international partnership including policy makers and all stakeholders;
2011–2013: Poland representative in SCAR CWG on “Integrated pest management for the reduction of
pesticide risks and use”.
2014–2016: member of C-IPM ERANET “Coordinated Integrated Pest Management in Europe”. (The overall
objective of the C-IPM is to create synergy in projects of national research programs, of European
initiatives and activities of the private sector in the field of integrated pest management, to ensure a
higher level of implementation of integrated plant protection products among European farmers)
(WP1, WP2, WP5)
WP1 – To develop a strategic research agenda on IPM in Europe;
WP2 – Mapping and analysis of existing research based on future needs;
WP5 –To develop and fund joint transnational calls.
5. 5
* In addition – 2013 – Cooperation with Prof. Lothar Frese on “Characterisation of use (SWOT Analysis) of
Polish Plant Genetic Resources by interview with NGO, plant breeders (plant breeding companies) and
Polish Gene Bank (National Centre for Plant Genetic Resources)” – in PGR-SECURE 2011-2014
“Novel characterization of crop wild relative and landrace resources as a basis for improved crop
breeding”; WP5: Engaging the user community, Task 2: SWOT analysis of European PGR conservation
and use community needs to promote CWR and LR use.
Results are published in: Frese L., Czembor E., Neuhaus G., Czembor J.H. 2014. Poland . Appendix 1,
p. 1-11; Frese, L., Palmé, A. and Kik, C. 2014. On the sustainable use and conservation of plant genetic
resources in Europe. In: Report from Work Package 5 “Engaging the user Community” of the PGR Secure
project “Novel characterization of crop wild relative and landrace resources as a basis for improved crop
breeding”. PGR-Secure and EUCARPIA Conference. 16-20.06.2014. Cambridge, UK.
Organisational skills:
Prof. J.H. Czembor was chairman of plenary and poster sessions on 7 conferences.
2011 – Prof. dr hab. Jerzy H. Czembor was a head of Organizing Committee of conference of experts under the
aegis of the Polish Presidency of the EU on “Sustainable use of pesticides and integrated pest management in
East-Central Europe and the Baltics”, September 4-6, 2011, IHAR-PIB, Radzikow, Poland.
Summary
Prof. J.H. Czembor is a member of several domestic and international scientific associations (e.g. EUCARPIA,
Polish Plant Pathology Society).
2008 – present: Poland representative in EUCARPIA (European Association for Research on Plant Breeding).
2003 – present – He acts as an independent expert for the EC in 6th
and 7th
Framework Programmes and from
2015 Horizon 2020; for EC Directorate-General for Agriculture and Rural Development; for Technopolis Group
reviewing COST Actions (in total - 11 panels).
Prof. J.H. Czembor published more than 200 scientific papers and communications.
Citations: 228; h-index: 8 (Data from Web of Science http://apps.webofknowledge.com/ - December 2015)
Recent publications:
Czembor P.Cz., Czembor J.H., 2004. DNA polymorphism among barley NIL sof cv. Pallas, carrying genes for
resistance to powdery mildew (Blumeria graminis f. sp. hordei). Journal of Applied Genetics 45(2):
183-187.
Czembor P.Cz., Czembor J.H., 2004. The use of bulk segregant analysis to identify a RAPD marker linked to
Mla locus conferring resistance to barley powdery mildew. Plant Breeding and Seed Science 49:
41-49.
Czembor H.J., Czembor J.H., 2004. Pathogenicity of barley powdery mildew (Blumeria graminis f. sp. hordei)
in Poland in 1999. Biuletin IHAR 231: 377-386.
Czembor H.J., Czembor J.H., 2004. Pathogenicity of barley powdery mildew (Blumeria graminis f. sp. hordei)
in Poland in 2000. Biuletin IHAR 233: 107-115.
Czembor J.H., 2004. Crop Improvement Centre for Sustainable Agriculture at Plant Breeding and
Acclimatization Institute. High Technology in Poland – Part VII, p. 64-65.
Gacek E., Bilinski Z.R., Czembor H.J., Czembor J.H., 2004. Pathogenicity of barley powdery mildew
(Blumeria graminis f. sp. hordei) in Poland during 1993 - 1996. Biuletin IHAR 231: 365-376.
Czembor J.H., Arseniuk E. 2005. Breeding of cereals for sustainable agriculture. W: Science and Technology
for Sustainable Agriculture, W. Golka (ed) p. 157-178.
Czembor H.J., Czembor J.H. 2005. Breeding of cereals for organic agriculture. Wies Jutra 4(81): 32-33.
Czembor P.Cz., Czembor J.H., 2005. Identification of RAPD marker for the Mlat powdery mildew resistance
gene in barley. Mykologiya i Fitopatologiya 39(2): 66-73.
Czembor J.H. 2005. Powdery mildew [Blumeria graminis (DC.) E. O. Speer f. sp. hordei] resistance in
landraces of barley (Hordeum vulgare L.) – habilitation monography. Monografie i Rozprawy
Naukowe IHAR 2005(24): 1-164.
Czembor J.H., Bladenopoulos K. 2007. Resistance to leaf rust (Puccinia hordei) in Greek barley cultivars and
breeding lines. Cereal Rusts and Powdery Mildews Bulletin [www.crpmb.org/] 2007/0215czembor
6. 6
Czembor J.H., Czembor H.J. 2008. Leaf rust resistance in hybrid lines derived from crosses between Hordeum
vulgare and Hordeum bulbosum. Plant Breeding and Seed Science 57: 13-20.
Czembor H.J., Czembor J.H., Pietrusińska A., Domeradzka O. 2010. Resistance to powdery mildew (Blumeria
graminis f.sp. hordei) of barley cultivars included in the registration trials in Poland in the years
2007–2009. Biuletyn IHAR 256: 81-96.
Jørgensen L.N., Hovmøller M.S., Hansen J.G., Lassen P., Clark B., Bayles R., Rodemann B., Jahn M., Flath K.,
Goral T., Czembor J.H., Cheyron P., Maumene C., Nielsen G.C. 2010. EuroWheat.org : A support
to integrated disease management in wheat. Outlooks on Pest Management 21(4): 173-176.
Newton A.C., Akar T., Baresel J.P, Bebeli P.J., Bettencourt E., Bladenopoulos K.V., Czembor J.H. , D.A.
Fasoula D.A., Katsiotis A., Koutis K., Koutsika-Sotiriou M., Kovacs G., Larssson H., Pinheiro de
Carvalho M.A.A., Rubiales D., Russell J., Dos Santos T.M.M., Vaz Patto M.C.. 2010. Cereal landraces for
sustainable agriculture. A review. Agronomy for Sustainable Development 30(2): 237-269.
Maccaferri M., Sanguineti M.C., Mantovani P., Demontis A., Massi A., Ammar K., Kolmer J.A., Czembor J.H.,
Breiman A., Tuberosa R. 2010. Association mapping of leaf rust response in durum wheat.
Molecular Breeding 26(2): 189-228.
Reinstädler A., Müller J., Czembor J.H., Piffanelli P., Panstruga R. 2010. Novel induced mlo mutant alleles in 1
combination with site-dir ected mutagenesis reveal functionally important domains in the
heptahelical barley Mlo protein. BMC Plant Biology 2010, 10:31,
http://www.biomedcentral.com/1471-2229/10/31
Pietrusińska A., Czembor J.H., Czembor P.Cz. 2011. Pyramiding of two resistance genes for leaf rust and
powdery mildew resistance in common wheat. Cereal Research Communications. 39(4): 577-588.
Jørgensen L.N.; Hovmøller M.S.; Hansen J.G.; Lassen P.; Clark B.; Bayles R.; Rodemann B.; Jahn M.; Flath K.;
Goral T.; Czembor J.H.; Cheyron P.; Maumene C.; Pope C.; Nielsen G.C. 2011. EuroWheat.org –
new european internet based platform to support integrated crop protection in wheat. Wies Jutra
152/153: 1-2.
Czembor H.J., Czembor J.H., Pietrusińska A., Domeradzka O. 2011. Resistance to powdery mildew
(Blumeria graminis f. sp. hordei) in barley cultivars included to registration trials in Poland in 2010.
Biul. IHAR 260/261: 219-228.
Czembor H.J., Czembor J.H., Pietrusińska A., Domeradzka O. 2012. Resistance to powdery mildew (Blumeria
graminis f. sp. hordei) in barley cultivars included to registration trials in Poland in 2011. Biul.
IHAR 265: 23-33.
Czembor J.H. 2012. Effective resistance of barley to powdery mildew conditioned by mlo gene. Wies Jutra
164-165: 33-34.
Pietrusińska A., Czembor P.Cz., Czembor J.H. 2013. Lr39 + Pm21: a new effective combination of resistance
genes for leaf rust and powdery mildew in wheat. Czech J. Genet. Plant Breed. 49: 109-115.
Czembor J.H., Doraczyńska O., Pietrusińska A., Czembor H.J. 2013. Resistance to powdery mildew (Blumeria
graminis f. sp. hordei) in barley cultivars included to registration trials in Poland in 2012. Biul. IHAR
268: 35-45.
Czembor J.H., Doraczyńska O., Czembor H.J. 2013. Resistance of triticale to powdery mildew. Wies Jutra
175: 26-27.
Czembor H.J., Doraczyńska O., Czembor J.H. 2013. Resistance of triticale cultivars to powdery mildew
(Blumeria graminis ff. ssp.) occurring in Poland. Biul. IHAR 267: 3-16.
Doraczyńska O., Czembor J.H., Czembor H.J., Jalli M. 2013. New sources of resistance to net blotch
(Pyrenophora teres f. sp. teres) in collection of barley landraces. Biul. IHAR 270: 17-31.
Czembor J.H., Strzembicka A., Czembor H.J., Domeradzka O., Pietrusińska A., Czajowski G. 2014. Evaluation
and use of primitive forms biodiversity for improvement of barley resistance to economically
important diseases. Chapter 2.3 in monograph “Improving Plants for Sustainable Agro-ecosystems,
High Quality Food and Crop Production for Non-food Purposes”, IHAR-PIB 2008-2013. Ed. by E.
Arseniuk. Monografie i Rozprawy Naukowe IHAR-PIB 48/2014: 145-149.
Czembor H.J., Czembor J.H., Strzembicka A., Czembor P., Domeradzka O., Sołtys A., Czajowski G. 2014.
Monitoring of pathogenicity changes in populations of fungi (B. graminis, P. recondita, P.
striiformis, Pyrenophora spp., Rhynchosporium secalis) causing economically important cereal
diseases – powdery mildew of wheat, barley and triticale; wheat leaf and yellow rust; barley leaf
rust; net blotch and leaf scald on barley. Chapter 6.7 in monograph “Improving Plants for
Sustainable Agro-ecosystems, High Quality Food and Crop Production for Non-food Purposes”,
IHAR-PIB 2008-2013. Ed. by E. Arseniuk. Monografie i Rozprawy Naukowe IHAR-PIB 48/2014:
291-295.
7. 7
Czembor H.J., Domeradzka O., Czembor J.H. Mańkowski D.R. 2014. Virulence structure of the powdery
mildew (Blumeria graminis) population occurring on triticale (x Triticosecale) in Poland. Journal of
Phytopathology 162: 499-512.
Jorgensen L.N., Hovmoler M., S., Hansen J.G., Lassen P., Clark B., Bayles R., Rodemann B., Flath K., Jahn M.,
Goral T., Czembor J.H., Cheyron P., Maumene C., DePope C., Ban R., Nielsen G.C., Berg G.
2014. IPM strategies and their dilemmas including an introduction to www.Eurowheat.org. Journal
of Integrative Agriculture 13(2): 265-281.
Pietrusińska A., Czembor J.H. 2014. Virulence structure of the Blumeria graminis f. sp. tritici population
occurring in Poland in 2012–2013. Biul. IHAR 274: 15-25.