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They are both plant cells and have cell walls.
The scientist should use an electron microscope
The presence of chloroplasts in hydrilla cells, but not in onion cells, indicates that hydrilla is a photosynthetic aquatic plant, utilizing chlorophyll to convert light energy into chemical energy through photosynthesis. In contrast, onion cells lack chloroplasts because onions are primarily storage organs and do not perform photosynthesis. This difference highlights the specialized functions of plant cells based on their roles in the plant's overall physiology and environment. Thus, the presence of chloroplasts signifies the hydrilla's adaptation to its aquatic habitat, where it derives energy directly from sunlight.
A scientist would build a microscope to study cells and their functions. Microscopes allow scientists to observe and analyze cells at a microscopic level, helping them understand cell structure and behavior.
The main tissue in a hydrilla plant is parenchyma tissue. Parenchyma cells are responsible for various functions, including storage, photosynthesis, and support in the plant.
because of the living cells
the differentiate between onion and hydrilla cells is hydrilla cells have chloroplasts while onion cells have not
The structures that are found in the hydrilla which are not found in the onion cell are chloroplasts, specifically the stomata and chlorophyll. Onions lack these structures because they grow underground.
They are both plant cells and have cell walls.
The scientist should use an electron microscope
The green pigment chlorophyll is contained within the chloroplasts of hydrilla cells. Chloroplasts are specialized organelles that perform photosynthesis, converting light energy into chemical energy in the form of glucose.
Hydrilla is known to have a high abundance of chloroplasts due to its photosynthetic nature. Chloroplasts are the organelles responsible for carrying out photosynthesis in plant cells, producing energy in the form of sugars using sunlight.
Hydrilla leaf cells contain chloroplasts, which are a type of plastid responsible for photosynthesis. Chloroplasts contain chlorophyll pigments that capture light energy to convert carbon dioxide and water into sugars, providing energy for the plant.
A Hydrilla is aquatic plant that lives is lakes or ponds. if you have any questions,just add me at friendster. guinoo_qt@Yahoo.com
Hydrilla cells typically range in size from 200 to 600 micrometers in length and 14 to 65 micrometers in width. They are elongated and can vary in shape depending on environmental conditions.
Mitochondria
The presence of chloroplasts in hydrilla cells, but not in onion cells, indicates that hydrilla is a photosynthetic aquatic plant, utilizing chlorophyll to convert light energy into chemical energy through photosynthesis. In contrast, onion cells lack chloroplasts because onions are primarily storage organs and do not perform photosynthesis. This difference highlights the specialized functions of plant cells based on their roles in the plant's overall physiology and environment. Thus, the presence of chloroplasts signifies the hydrilla's adaptation to its aquatic habitat, where it derives energy directly from sunlight.