100 Examples of sentences containing the common noun "phytopathology"

Definition

Phytopathology is the scientific study of plant diseases and the causes, effects, and management of these diseases. It encompasses various aspects of plant health, including the interactions between plants and pathogens, disease management strategies, and the impact of diseases on agriculture and ecosystems.

Synonyms

Plant pathology
Plant disease science
Agricultural pathology
Mycology (specific to fungal diseases)
Bacteriology (specific to bacterial diseases)

Antonyms

Phytobiology (study of healthy plants)
Agronomy (focus on crop production without disease emphasis)

Examples

Researchers study phytopathology to better understand how to combat crop diseases.
The field of phytopathology has made significant advances in disease resistance.
Understanding phytopathology can help farmers reduce yield losses.
Many universities offer degrees that specialize in phytopathology.
The role of phytopathology is critical in sustainable agriculture.
Advances in biotechnology are greatly benefiting phytopathology.
The research team focused on phytopathology to develop resistant plant varieties.
Phytopathology is essential for ensuring food security worldwide.
Students often find phytopathology fascinating due to its complexity.
Online courses in phytopathology have become increasingly popular.
The impact of climate change on phytopathology is a growing area of concern.
The department of phytopathology hosts annual conferences for researchers.
Studying phytopathology requires a strong foundation in biology.
Phytopathology helps in diagnosing plant diseases accurately.
The findings in phytopathology can lead to improved agricultural practices.
Many plant pathologists work closely with agronomists and entomologists.
Researching phytopathology can lead to breakthroughs in crop protection.
The integration of technology in phytopathology is revolutionizing the field.
Phytopathology investigates both biotic and abiotic factors affecting plants.
Collaboration in phytopathology is crucial for tackling global challenges.
The principles of phytopathology are applied in various agricultural sectors.
Understanding phytopathology can mitigate the effects of invasive species.
Professional organizations in phytopathology provide valuable resources.
Phytopathology is integral to the development of sustainable pest management.
The study of phytopathology includes the effects of soil health on plant diseases.
Many professionals in phytopathology are involved in field research.
The application of fungicides is a common practice in phytopathology.
Phytopathology is not only limited to crops but also includes ornamental plants.
The success of phytopathology research often hinges on interdisciplinary collaboration.
Learning about phytopathology enhances our understanding of ecosystems.
The historical context of phytopathology reveals its importance over centuries.
Innovations in phytopathology can lead to more resilient food systems.
Exploring phytopathology gives students hands-on experience in laboratories.
The influence of phytopathology on global agriculture cannot be underestimated.
Workshops on phytopathology provide training for professionals in the field.
Many diseases can be better managed through the lens of phytopathology.
Phytopathology contributes to the development of organic farming practices.
Connecting with experts in phytopathology can enhance research initiatives.
The relationship between plants and pathogens is a core focus of phytopathology.
The study of phytopathology has implications for biodiversity conservation.
Applying principles of phytopathology can improve crop rotations.
Many diseases are identified through methods developed in phytopathology.
The findings of phytopathology can inform policy decisions in agriculture.
Investigating phytopathology leads to better understanding of disease cycles.
The use of remote sensing in phytopathology is gaining traction.
Phytopathology plays a role in the safety of food supply chains.
Practicing phytopathology requires a mix of theoretical and practical skills.
The evolution of pathogens is a key area of interest in phytopathology.
Phytopathology offers insights into the management of plant health.
Evaluating the impacts of climate on phytopathology is essential for future planning.
The interdisciplinary nature of phytopathology makes it a dynamic field.
Many agricultural innovations stem from research in phytopathology.
Discussing phytopathology with colleagues can lead to new ideas.
The tools used in phytopathology are constantly evolving with technology.
Phytopathology is crucial for understanding disease resistance mechanisms.
Conducting experiments in phytopathology can yield new findings.
The importance of phytopathology extends beyond just agriculture.
Students are encouraged to explore phytopathology through internships.
The relationship between environmental factors and phytopathology is significant.
Teaching phytopathology involves both fieldwork and theoretical knowledge.
The role of phytopathology in food safety is increasingly recognized.
Promoting awareness of phytopathology can help in community gardening efforts.
The global nature of agriculture necessitates a focus on phytopathology.
Sharing knowledge of phytopathology can strengthen agricultural communities.
The impact of phytopathology on global trade in agricultural products is profound.
Utilizing phytopathology knowledge can enhance crop management strategies.
The future of phytopathology looks promising with ongoing research.
Adopting phytopathology principles can lead to healthier ecosystems.
The study of phytopathology is fundamental for developing integrated pest management.
Collaborating with biologists can enrich phytopathology research.
Phytopathology involves understanding the life cycles of pathogens.
Fostering interest in phytopathology among students is vital for future research.
The relationship between phytopathology and climate resilience is crucial.
Integrating phytopathology into agricultural education is beneficial for students.
Phytopathology can help predict the spread of plant diseases.
Documenting phytopathology findings is important for future reference.
The challenges in phytopathology require innovative solutions.
Addressing phytopathology issues is essential for global food security.
The teaching of phytopathology includes both practical and theoretical components.
Encouraging research in phytopathology is essential for agricultural advancements.
Phytopathology provides insights into the interactions between crops and pests.
Evaluating the effectiveness of treatments is a key aspect of phytopathology.
The collaboration between phytopathologists and farmers is vital for success.
Advancing knowledge in phytopathology can lead to improved agricultural practices.
The principles of phytopathology are applicable in various environmental contexts.
Investigating the genetic basis of disease resistance is a focus of phytopathology.
Phytopathology helps in understanding the ecological impacts of plant diseases.
Incorporating technological advancements can enhance phytopathology research.
The effects of soil pathogens are a significant area of study in phytopathology.
Engaging with the community on phytopathology can raise awareness.
The significance of phytopathology extends to environmental conservation efforts.
Championing research in phytopathology can lead to breakthroughs in agriculture.
The study of phytopathology is essential for maintaining biodiversity.
Promoting sustainable practices in phytopathology is crucial for the planet.
The application of phytopathology is vital in the face of climate change.
Utilizing data from phytopathology can inform agricultural policies.
The collaboration of different disciplines enhances the field of phytopathology.
Participating in phytopathology workshops can improve practical skills.
Phytopathology is fundamental for developing effective disease management strategies.
Explaining the importance of phytopathology can help garner support for research funding.