*Light*Im gonna start it off. The closest thing to being real "plant food" or "food" as we would consider it would be the actual Carbon taken out of the air.
ROLF plants get their carbon out of the air, its calld carbon dioxide gas around 300ppm in the air. why have you got C02 and carbon in the list? thay are the samethingThis is to end a ridiculous debate.
What is a plants food?
Is it Nutrients?
Light?
c02?
Carbon?
H20?
Plants dont really eat food so it is a ridiculous debate but a good debate nonetheless so let us know what you think. And lets try to keep it friendly.
Photosynthesis
Photosynthesis[α] is a metabolic pathway that converts carbon dioxide into organic compounds, especially sugars, using the energy from sunlight.[1] Photosynthesis occurs in plants, algae, and many species of Bacteria, but not in Archaea. Photosynthetic organisms are called photoautotrophs, but not all organisms that use light as a source of energy carry out photosynthesis, since photoheterotrophs use organic compounds, rather than carbon dioxide, as a source of carbon.[2] In plants, algae and cyanobacteria photosynthesis uses carbon dioxide and water, releasing oxygen as a waste product. Photosynthesis is crucially important for life on Earth, since as well as it maintaining the normal level of oxygen in the atmosphere, nearly all life either depends on it directly as a source of energy, or indirectly as the ultimate source of the energy in their food.[2][β] The amount of energy trapped by photosynthesis is immense, approximately 100 terawatts :[3] which is about six times larger than the yearly power consumption of human civilization.[4] In all, photosynthetic organisms convert around 100,000,000,000 tonnes of carbon into biomass per year.[5]
Although photosynthesis can occur in different ways in different species, some features are always the same. For example, the process always begins when energy from light is absorbed by proteins called photosynthetic reaction centers that contain chlorophyll. In plants these proteins are held inside organelles called chloroplasts, while in bacteria they are embedded in the plasma membrane. Some of the light energy gathered by chlorophylls is stored in the form of adenosine triphosphate (ATP). The rest of the energy is used to remove electrons from a substance such as water. These electrons are then used in the reactions that turn carbon dioxide into organic compounds. In plants, algae and cyanobacteria these reactions are called the Calvin cycle, but different sets of reactions can be found in bacteria, such as the reverse Krebs cycle in Chlorobium. Many photosynthetic organisms have adaptations that concentrate or store carbon dioxide, this helps reduce a wasteful process called photorespiration that would otherwise consume part of the sugar produced during photosynthesis.
Photosynthesis evolved early in the evolutionary history of life, when all forms of life on Earth were microorganisms. Although the dates are difficult to estimate with any accuracy, the first photosynthetic organisms probably evolved about 3,500 million years ago, and used hydrogen or hydrogen sulfide as sources of electrons, rather than water.[6] Cyanobacteria appeared later, around 3,000 million years ago, and changed the Earth forever when they began to oxygenate the atmosphere, beginning about 2,400 million years ago.[7] This new atmosphere allowed the evolution of complex life such as protists. Eventually, about 550 million years ago, one of these protists formed a symbiotic relationship with a cyanobacterium, producing the ancestor of the plants and algae.[8] The chloroplasts in modern plants are the descendants of these ancient symbiotic cyanobacteria.
thats contradicting what you are trying to say 1stWhere's the option for none of the above?
Autotrophic plants use light energy to make all the organic compounds they
require from carbon dioxide, water, and about 14 mineral nutrients they absorb
from their environment. Therefore, they don't really produce metabolic wastes
to the extent that heterotrophs do. Heterotrophs digest food. Plants do not
need to digest with the exception of a few species of carnivorous plants that
obtain mineral nutrients by digesting insects and small animals.
The term food is not even a term that should be applied to autotrophic plants.
Food is something that is digested and provides energy. Plants are food for
animals and other heterotrophs but they do not produce food for themselves.
Heterotrophs get energy and organic nutrients (amino acids, fatty acids,
carbohydrates, vitamins) from other organisms (food). Autotrophic plants get
energy from light and synthesize their organic nutrients from carbon dioxide
and water.
David Hershey, Faculty, Botany, NA
http://www.madsci.org/posts/archives/2002-02/1013824497.Bt.r.html
2ndAutotrophic plants use light energy to make all the organic compounds they
require from carbon dioxide, water, and about 14 mineral nutrients they absorb
from their environment.
and 3rdHeterotrophs get energy and organic nutrients (amino acids, fatty acids,
carbohydrates, vitamins) from other organisms (food)
energy is food we eat food that gives us energy and we grow from eating it. plants absorb (becase it has no mouth) energy in the form of light which it uses to synthesize their organic nutrients from carbon dioxide and water and it makes it grow.Autotrophic plants get
energy from light and synthesize their organic nutrients from carbon dioxide
and water.
I wouldnt necessarily associate food with plants. Plants dont need food. But anyway, If anything would be considered "food" it would be the carbon. Plants make their own food. Clearly you dont understand what your Copy and Pasting from Wiki....ccome on it make perfect sense it just easyer to say we give plans food instead of saying we give plants somthing to help it to grow.
I forgot to add a couple things to the poll like...Plants dont eat food, and I dont give a f*ck...but its too late now.Where's the option for none of the above?http://www.madsci.org/posts/archives/2002-02/1013824497.Bt.r.html
i understand it o.k.I wouldnt necessarily associate food with plants. Plants dont need food. But anyway, If anything would be considered "food" it would be the carbon. Plants make their own food. Clearly you dont understand what your Copy and Pasting from Wiki....
in other words plants could not take carbon in, in the 1st place with out the energy from the light, that triggers the start of photosynthesisPhotosynthesis
Photosynthesis[α] is a metabolic pathway that converts carbon dioxide into organic compounds, especially sugars, using the energy from sunlight.[1] Photosynthesis occurs in plants, algae, and many species of Bacteria, but not in Archaea. Photosynthetic organisms are called photoautotrophs, but not all organisms that use light as a source of energy carry out photosynthesis, since photoheterotrophs use organic compounds, rather than carbon dioxide, as a source of carbon.[2] In plants, algae and cyanobacteria photosynthesis uses carbon dioxide and water, releasing oxygen as a waste product. Photosynthesis is crucially important for life on Earth, since as well as it maintaining the normal level of oxygen in the atmosphere, nearly all life either depends on it directly as a source of energy, or indirectly as the ultimate source of the energy in their food.[2][β] The amount of energy trapped by photosynthesis is immense, approximately 100 terawatts :[3] which is about six times larger than the yearly power consumption of human civilization.[4] In all, photosynthetic organisms convert around 100,000,000,000 tonnes of carbon into biomass per year.[5]
Although photosynthesis can occur in different ways in different species, some features are always the same. For example, the process always begins when energy from light is absorbed by proteins called photosynthetic reaction centers that contain chlorophyll. In plants these proteins are held inside organelles called chloroplasts, while in bacteria they are embedded in the plasma membrane. Some of the light energy gathered by chlorophylls is stored in the form of adenosine triphosphate (ATP). The rest of the energy is used to remove electrons from a substance such as water. These electrons are then used in the reactions that turn carbon dioxide into organic compounds. In plants, algae and cyanobacteria these reactions are called the Calvin cycle, but different sets of reactions can be found in bacteria, such as the reverse Krebs cycle in Chlorobium. Many photosynthetic organisms have adaptations that concentrate or store carbon dioxide, this helps reduce a wasteful process called photorespiration that would otherwise consume part of the sugar produced during photosynthesis.
Photosynthesis evolved early in the evolutionary history of life, when all forms of life on Earth were microorganisms. Although the dates are difficult to estimate with any accuracy, the first photosynthetic organisms probably evolved about 3,500 million years ago, and used hydrogen or hydrogen sulfide as sources of electrons, rather than water.[6] Cyanobacteria appeared later, around 3,000 million years ago, and changed the Earth forever when they began to oxygenate the atmosphere, beginning about 2,400 million years ago.[7] This new atmosphere allowed the evolution of complex life such as protists. Eventually, about 550 million years ago, one of these protists formed a symbiotic relationship with a cyanobacterium, producing the ancestor of the plants and algae.[8] The chloroplasts in modern plants are the descendants of these ancient symbiotic cyanobacteria.
energy =/= foodthats contradicting what you are trying to say 1st
2nd
and 3rd
energy is food we eat food that gives us energy and we grow from eating it. plants absorb (becase it has no mouth) energy in the form of light which it uses to synthesize their organic nutrients from carbon dioxide and water and it makes it grow.
no they dont eat food they obsorb light energy.I forgot to add a couple things to the poll like...Plants dont eat food, and I dont give a f*ck...but its too late now.
just look up photosynthesis.energy =/= food
Energy is obtained from food so you can call food an energy storage device but it is stretching the definitions of energy and food to call them one and the same as well as ignoring the non-energy aspects of food like nutrients.
Humans and animals could not take in food without OXYGEN to sustain us in the first place.in other words plants could not take carbon in, in the 1st place with out the energy from the light, that triggers the start of photosynthesis
I couldnt say it any better. This guy knows what he's talking about.energy =/= food
Energy is obtained from food so you can call food an energy storage device but it is stretching the definitions of energy and food to call them one and the same as well as ignoring the non-energy aspects of food like nutrients.
You've posted the definition enough times already here and the other thread and it still doesn't make your case. What do you think is synthesized by photosynthesis?just look up photosynthesis.
i know plants dont eat food but they need energy from light so if there was such a thing as food then light would be it not what you put in the ground. light would not be the air plants, take in air through the roots and leaf = resperation.Humans and animals could not take in food without OXYGEN to sustain us in the first place.
Light to a Plant is more like Oxygen to a Human. Not food.
Your really stretching definitions. Not trying to be an ass bro. You said it yourself, "light just initiates the reaction"
Its not the "food" itself though.
The energy released in respiration is used to synthesize ATP to store this energy. The energy stored in ATP can then be used to drive processes requiring energy, including biosynthesis, locomotion or transportation of molecules across cell membranes. Because of its ubiquity in nature, ATP is also known as the "universal energy currency".
The production of ATP using the energy of sunlight is called photophosphorylation. Only two sources of energy are available to living organisms: sunlight and oxidation-reduction (redox) reactions. All organisms produce ATP, which is the universal energy currency of life.
In photophosphorylation, light energy is used to create a high-energy electron donor and a lower-energy electron acceptor. Electrons then move spontaneously from donor to acceptor through an electron transport chain.
How can you be so ignorant? Your posting stuff that proves your claims wrong....think thats sorted all the above Q's out
LOL no it just makes it faster than having to type it all out. proves me wrong? HAHA he who says the light is the air for plants you are the i cant be botherd with you so play your stupid little games making new posts like this one and hopping to get back up because you clearly dont know what your talking about and when its made clear to you that fuck all grows with out light and to prove thatHow can you be so ignorant? Your posting stuff that proves your claims wrong....
Copy + Paste does not make you smart or prove any of your points.
https://www.rollitup.org/indoor-growing/178493-1000-hps-vs-2x-400-a-6.html#post2325434#1 is Environment!!!! It doenst matter how much light you try to blast on your plants if you dont have enough airflow to match photosynthesis. Higher c02 levels means your plants can process more light.
#2 ENVIRONMENT AGAIN!!!!! I dont care what anyone says, Everyone overlooks environment. C02, Temp, Humidity, Airflow!!!
#3 Genetics. If you dont have good genetics then it doesnt matter how much light, c02, nutes, whatever, it doesnt matter what you use if you dont have solid genetics.
#4 NUTRIENTS!!!!! A proper diet is KEY for good growth. Not just NPK but the 14 other trace elements that your Chronic needs!
And finally.... #5 Lighting. If you have Everything else the way you want it, then start adding more light.
That statement shows just how Ignorant you are.lighting is last on your list well thought out that one without a grow light its not a grow room its just a dark room with seeds and nutes in it.