Can fungi do photosynthesis?

Fungi are a large group of lower plants that are extremely widely distributed and diverse in nature.

Let's talk about which organisms can photosynthesize!

1.Green. It's the leafy plants we usually see, the greens we eat every day, and so on. Note that mushrooms and other classes do not belong to this, mushrooms are fungi, saprophytic and cannot carry out photosynthesis.

2.Cyanobacteria. Although it is a prokaryotic organism and is just a small cell, it can carry out photosynthesis due to the presence of leaf green and cyanophycin.

As a result, only green plants and cyanobacteria can photosynthesize, while fungi, including bacteria and fungi, cannot photosynthesize without chlorophyll or other substances that can help with photosynthesis.

Photosynthetic bacteria can photosynthesize in an environment with light and hypoxia, use light energy for photosynthesis, and use light energy to assimilate carbon dioxide, unlike green plants, their photosynthesis does not produce oxygen. There is only one photosystem in the cell of photosynthetic bacteria, that is, PSI, and the original hydrogen donor of photosynthesis is not water, but H2S (or some organic matter), so that the result of its photosynthesis is to produce H2, which decomposes organic matter, and at the same time immobilizes the molecule nitrogen in the air to produce ammonia. In the process of assimilation and metabolism, photosynthetic bacteria have completed the three extremely important chemical processes in the natural material cycle: hydrogen production, nitrogen fixation, and decomposition of organic matter.

These unique physiological characteristics make their place in the ecosystem extremely important.

Photosynthetic bacteria are one of the leading products of Beihai Qunlin Bioengineering, and the photosynthetic bacteria produced by the company are among the best in the industry in terms of color and use effect.

Although photosynthetic bacteria do not have chloroplasts, they all have enzymes and pigments related to photosynthesis! So photosynthesis can also be carried out, and the process is basically the same as in chloroplasts!

Photosynthetic pigments are otherwise similar to chloroplasts.

1. Photosynthetic bacteria can degrade residual bait, fish feces and other organic matter in the water body, and can absorb and utilize ammonia and nitrite.

Harmful substances such as hydrogen sulfide play a role in purifying water quality. 2. Photosynthetic bacteria are rich in amino acids.

Folic acid, B vitamins and physiologically active substances coenzyme Q can be used as opening bait for larvae and can improve the survival rate of fry. 3. Adding photosynthetic bacteria to the feed can strengthen the digestion and absorption capacity of fish, improve the utilization rate of feed, and accelerate the growth of fish.

1. The role and use time of photosynthetic bacteria in aquaculture

1. Function. 1) In the later stage of aquaculture, the content of organic matter, ammonia and nitrite in the water body of the fish pond is higher, which affects the growth of fish, and the photosynthetic bacteria can degrade the residual bait, fish feces and other organic matter in the water body, and can absorb and utilize ammonia, nitrite, hydrogen sulfide and other harmful substances, so as to purify the water quality.

2) The photosynthetic bacteria are rich in amino acids, folic acid, B vitamins and physiologically active substances Coenzyme Q, which can be used as opening bait for larvae and can improve the survival rate of fry.

3) After photosynthetic bacteria are added to the feed, they can strengthen the digestion and absorption capacity of fish, improve the utilization rate of feed, and accelerate the growth of fish.

4) Photosynthetic bacteria can inhibit the reproduction of harmful bacteria, reduce the probability of infection in fish, and can also inhibit cyanobacteria.

and other harmful algae.

The reproduction of diatoms, chlorella.

and other beneficial algae become dominant algae.

2. Time of use.

1) Before the fish pond is used, the photosynthetic bacteria mixed with rotted organic fertilizer are evenly sprinkled into the pond to promote the growth of algae.

2) The suitable growth temperature of photosynthetic bacteria is 28-36 °C, and it is advisable to use it at 10-11 o'clock in the morning on a sunny day.

2. Can photosynthetic bacteria and bacillus be used together?

1. Photosynthetic bacteria and bacillus should not be used together.

2. Photosynthetic bacteria.

The suitable pH is 6-10, acidic water is not conducive to the growth of photosynthetic bacteria, and if you want the activity of photosynthetic bacteria to reach a high value, the pH should be controlled at about that. The bacillus itself is a spore-like hypnozoite, in an acidic environment, after adding brown sugar and providing enough oxygen, it can be activated, and when the pH is 6-7, the activity of the bacillus is higher, once the pH exceeds 7, the activity will decrease.

3. To sum up, if the awakened bacillus is mixed with high-pH photosynthetic bacteria, the bacillus will be dormant again because of the inappropriate pH, until it is splashed into the pond, and after the pH drops, the bacillus can wake up again, but it will cause the bacillus to be "more than half".

Photosynthetic bacteria are a class of microorganisms that have photosynthetic pigments and can carry out photosynthesis. It is a highly nutritious, high-efficiency, multi-purpose biological product. Photosynthetic bacteria are rich in nutrients, including proteins, fats, soluble sugars, carotene, vitamin B and 16 kinds of amino acids.

While absorbing light energy and carbon dioxide, photosynthetic bacteria can also use the organic acids, hydrogen sulfide and ammonia produced by the decomposition of residual organic matter in the water area by abnormal microorganisms, so as to not only purify the water body, but also provide food for organisms in the upper layer of the food chain, thus becoming an important link in the food chain in the water. Light and bacteria have a strong ability to harness light energy, and microorganisms are 100 times more capable of absorbing carbon dioxide than forests in terms of the volume of living organisms. Due to the abundant nutrition and peculiar functions of photosynthetic bacteria, photosynthetic bacteria are widely used in various industries such as breeding, planting, medicine, and environmental protection.

Effect of photosynthetic bacteria in aquaculture: 1. Purify water quality and prolong the time of water change; 2. Maintain the micro-ecological balance of the water environment; 3. Absorb the oxygen consumption factor in the water and increase the oxygen in the water; 4. Reduce the use of antibiotics and improve the quality of aquatic products; 5. Increase zooplankton in the water body as bait.

The role of photosynthetic bacteria in planting: 1. As an opsonin and fertilizer for plants; 2. Separate the hydrogen in the soil, and synthesize sugars, amino acids, vitamins, nitrogen compounds and physiological substances with the secretions of plant heels, organic matter in the soil, harmful gases (hydrogen sulfide, etc.), carbon dioxide, nitrogen, etc., to provide plant nutrition and promote plant growth; 3. The metabolites of the photosynthetic flora can not only be directly absorbed by plants, but also become nutrients for the reproduction of other microorganisms and increase the beneficial bacteria in the soil; 4. Help plants to photosynthesize, absorb nitrogen, phosphorus, potassium and other elements in the atmosphere and soil, thereby reducing the use and residues of pesticides and fertilizers, improving the quality of agricultural and sideline products, and improving economic benefits.

Colored bacteria that use light energy and carbon dioxide to maintain autotrophic life Photosynthetic bacteria are widely distributed in soils, paddy fields, swamps, lakes, rivers and seas in nature, and are mainly distributed in anoxic areas where light can be transmitted in the aquatic environment.

Photosynthetic bacteria and green values can carry out photosynthesis, however, the photosynthesis of green plants is to use water as a hydrogen donor to reduce carbon dioxide and release oxygen at the same time, while the photosynthesis of photosynthetic bacteria uses hydrogen sulfide or organic matter (such as ethanol, succinic acid, etc.) as a hydrogen donor to reduce carbon dioxide to glucose, and at the same time precipitate sulfur or produce other organic matter (such as acetaldehyde, etc.). ‍

Photosynthetic bacteria are bacteria that carry out [oxygen-free photosynthesis] under anaerobic conditions.

Plant photosynthesis is a biochemical process that uses photosynthetic pigments to convert carbon dioxide (or hydrogen sulfide) and water into organic matter, and [releases oxygen (or hydrogen)].

The most obvious difference.

One does not produce oxygen.

One produces oxygen.

Please don't forget to adopt (o)y thanks!

Photosynthetic bacteria are a general term for a class of microorganisms that use light as energy source, carbon dioxide or small molecule organic matter as carbon source, hydrogen sulfide and other hydrogen donors, and carry out complete autotrophic or photoheterotrophic growth but do not produce oxygen. In nature, photosynthetic bacteria are extremely widely distributed and extremely vigorous. Gandu photosynthetic strains are mainly used to rapidly reduce COD and ammonia nitrogen in black and odorous river waters, and eliminate sediment'Hydrogen sulfide, inhibiting the formation of harmful bacteria and cyanobacteria, improving the transparency of water bodies, playing a role in water purification, making the water quality of rivers, landscape water, lake water, black and odorous water bodies clear and transparent.

Photosynthetic strains have a very magical effect on improving water quality, with: fast effect; High efficiency; High concentration (low dosage means low cost); Strong comprehensive treatment capacity (suitable for black and odorous water bodies, river treatment, municipal reservoirs, lake treatment, park landscape lakes, aquaculture farms); Simple operation; It can grow normally in extremely low temperature and rainy low-light environment, and can still multiply in large numbers under the conditions of weak light intensity or low dissolved oxygen, and has super adaptability.

Its disadvantage is different from other powdered strains of Gandhi, and the light synthesis of bacterial water-based agent does not have an advantage in packaging and transportation costs. As a result, some customers will reduce the amount of water purification in order to save costs, which will directly lead to a significant reduction in the effect of water purification.