Lectures related to Wood Microscopy: Understanding Tree Growth and Structure

Wood Anatomy: Structure and Function of Trees

Provides an overview of wood anatomy, focusing on cellular structures and their roles in tree growth and functionality.

Wood Anatomy: Cells Structures and Functions

Explores the anatomy of wood, focusing on cellular structures and functions like knots and annual rings.

Wood Anatomy: Cells Formation and Microscopic Structure

Explores the anatomy and microscopic structure of wood cells and tissues.

Tree Sap Circulation: Anatomy and Growth

Explores tree sap circulation, wood anatomy, growth rings, and vessel elements.

A microbiology primer

Covers microbiology basics, including cell structure, morphology, and energy generation in microbial cells.

Wood Anatomy: Structure and Properties

Covers wood anatomy and chemistry, focusing on cellular structure and properties of various wood types.

Wood Growth: Understanding Forest Adaptation to Climate Change

Explores tree growth patterns and adaptation strategies to climate change.

Cell Surface and Envelope: Microscopy and Cell Wall Structure

Explores microscopy, cell surface structures, and bacterial cell walls.

Wood Anatomy: Cellular Structure and Growth Rings

Explores cell formation, anatomy, water flow, and growth rings in hardwoods and softwoods.

Cell Composition: Metabolites and Macromolecules

Explores cell composition, including macromolecules, metabolites, ribosomes, and ion concentration, in prokaryotic cells like E. coli.

Wood Chemistry and Beech Wood Presentation

Explores the presentation and properties of beech wood, including its anatomy, indoor furniture uses, and cell wall structure.

Wood Anatomy: Growth, Microstructure, and Tissues Differentiation

Explores forest growth, tree adaptation to climate change, wood anatomy, and the cellular structure of wood.

Biology for Engineers: Introduction to Cellular Components

Introduces fundamental biological concepts essential for materials engineering, focusing on cellular components and their applications in engineering.

Mechanobiology of Single Cells

Covers how bacteria sense and respond to forces, exploring bacterial cell structures, adhesion mechanisms, motility, and mechanotransduction.

Wood Structures: Properties and Uses

Explores the biology, anatomy, and chemistry of wood, forest management, and the potential for wood-based materials in various applications.

Mechanobiology of Cell Growth

Explores the mechanobiology of cell growth, focusing on essential components, force curve-based sample characterization, and the impact of turgor pressure on growth.

Heat Impacts on Tree Mortality

Delves into the impact of heat on tree mortality and forest responses to climate change.

Computational Cell Biology: Modeling Cellular Complexity

Explores computational cell biology, modeling cellular complexity through molecular interactions and the challenges of atomistic simulations.

Forestry Management: Wood Growth and Sustainability

Explores forestry management, wood growth, sustainability, and the utilization of wood in ski production.

Wood Chemistry: Structure, Composition, and Interactions

Delves into the chemistry of wood components like Cellulose, Hemicellulose, and Lignin.