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Plant Basics
Plants need four basic inputs in order to grow and thrive:
- Light
- Air (more specifically, the carbon dioxide present in the
air)
- Water
- Nutrients
These inputs are naturally supplied in an outdoor environment by the
sun (light), the soil (nutrients), the air (CO2), and rain (water).
Nature supplies these inputs in a natural and relatively random way.
Sometimes it works out well for the plant and sometimes it does not.
The seed may not land and germinate in fertile soil. The rainfall may
be sparse or may be heavy at the wrong time for the plant. There may
be too many cloudy days for proper vegetative growth. Then there are
the other external factors: The young seedling may be eaten by a hungry
herbivore (rabbit, deer, etc). It may get overtaken by insects, or crowded
out by weeds. These are just some of the hazards faced by flora (plants)
in a natural outdoor environment.
The notion behind the Hydrocart™ is to provide an environment that
seeks to eliminate the hazards of the outdoor environment, while at
the same time maximizing the genetic potential of a given plant or seed.
We do this by providing all of the necessary inputs (L.A.W.N) in optimal
amounts at the right times. Since we control our indoor environment,
all it takes is for us to understand what the plant wants and deliver
it in the right amounts and at the right times. This may sound challenging,
but in fact it’s fairly simple. Let’s break it down.
- LIGHT: Plants need light to grow. Many seeds need
light in order to germinate. The amount of light that a plant gets
(both in terms of intensity and duration) determines, in conjunction
with the other three inputs, how well the plant will grow AND when
it will bloom or flower. Generally speaking, plants will grow vegetatively
when exposed to sufficient lighting for 12 to 24 hours per day.
A light cycle greater than 12 hours promotes vegetative growth.
A light cycle less than 12 hours, in general, promotes flowering/blooming.
The duration of the light cycle is called the photoperiod. In the
Hydrocart™, the photoperiod is controlled by the light timer, which
in turn is set by you. Thus, you control the photoperiod for the
plants growing in it. By setting the timer for greater than 12 hours
of light, you are promoting vegetative growth and suppressing blooming/flowering.
The longer the light is on, the faster the plants will grow. (I.e.
20 hours of continuous light will promote faster growth than 14
hours of continuous light.) When you set the timer for less than
12 hours of light, you are promoting blooming/flowering. With the
shortened light cycle, you are simulating the change of seasons
as the days get shorter and the nights longer. This signals to the
plant that it is time to bloom/flower.
(NOTE: Some plants are Absolute Photoperiod Determinate (APD), while
others are Relative Photoperiod Determinate (RPD). RPD plants are
triggered to bloom by a combination of chronological age (how old
they are) and light cycle (photoperiod). This means that they will
begin to bloom at a certain age whether or not they have less than
12 hours of exposure to light. APD plants will NOT bloom/flower
until the photoperiod falls below 12 hours (consistently) no matter
how old they are.)
- AIR: Plants need air for healthy and vigorous
growth and flowering. More specifically, plants need the carbon
dioxide that is naturally present in the air in order to grow. Generally
speaking, there is plenty of CO2 present in the air, both outdoors
and indoors, for healthy plant growth. There may, in many instances
be more CO2 present indoors than outdoors, due to the presence of
people and pets in the indoor environment. There are ways to supplement
the indoor environment with CO2 in order to encourage more rapid
and vigorous growth, but for general horticultural purposes is not
necessary. In terms of the Hydrocart™ however, the advantage of
having one in your home or facility comes from the plants themselves.
Plants take in our exhaled air (CO2) and in turn provide us oxygen,
which we need to grow and thrive. What the Hydrocart™ provides in
abundance that cannot be provided in soil is air to the root zone.
This is one of the factors that give the Hydrocart™ a big advantage
over other systems and methods in promoting greatly accelerated
growth and vigor.
- WATER: The amount of water a plant receives during
the growing season in an outdoor environment is determined largely
by the amount of rain that happens to fall, unless there is human
intervention (irrigation). During periods of drought a plant will
lose vigor (and subsequently become susceptible to insects or disease)
and perhaps even die. The Hydrocart™ provides water to the plants
continuously via the high volume water/nutrient delivery system
(a 950 gallon/hour pump and 42 fine spray Aeroponic nozzles). Your
plants never want for water, nutrients, or air. The result is maximum
lush green growth and plant vigor.
- NUTRIENTS: The amounts of nutrients that are made
available to a plant in an outdoor environment depend on the richness
and fertility of the soil in which it happens to germinate and grow.
If planted intentionally by a human, we can have a hand in determining
the fertility (nutrient content) of the soil either by tilling and
amending the soil in which we intend to sow our seeds or by fertilizing
the soil/plant at various intervals throughout the growing season.
The trouble with this is that we sometimes over-fertilize, killing
or stunting the plant. Sometimes we forget and don’t fertilize enough,
causing the plant not to reach its potential. In any case, most
of the fertilizer is wasted from the fertilizer solution as it leaches
through the soil and away from the plant. With the Hydrocart™, nutrient
components are supplied in a very precise amount and mix. They are
made available to the plant constantly, just as the water is. It
is this precision that allows us to change our nutrient mix to accommodate
the various stages of a plants growth. No fertilizer is wasted,
as the nutrients that are unused are recycled back into the reservoir
for later use. Seeds and fresh cuttings (clones) require little
to no fertilizer. Plants in vegetative growth require more fertilizer
(particularly Nitrogen). Blooming plants generally require less
nitrogen and more Phosphorous for increased bloom and, in some instances,
color. The good news is that, in a hydroponic environment, there
is a general mix that works for all stages of a plants growth. However,
if you have planted your entire Hydrocart™ at the same time, you
can really “push the envelope” on the growth rates and vigor of
your indoor dirtless garden by mixing your nutrients to accommodate
a specific stage of your garden’s growth. This is the science behind
gardening in the Hydrocart™. Besides, it is fun to experiment with
different nutrients and enhancers to find the recipe that really
maximizes the genetic potential of your plants, herbs, and vegetables.
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