pot farm guru: lighting

pot farm guru: lighting: Marijuana plants grow best in Latin America near the equator where the intense sun can give the plants enough energy to easily grow ten to f...

lighting

Marijuana plants grow best in Latin America near the equator where the intense sun can give the plants enough energy to easily grow ten to fifteen feet tall. As the seasons change and the plant progresses through its life cycle, changes in the color spectrum of the sun and the length of the day let the plant know when it is time to reproduce. 10215 400 Watts HPS Premium Digital Grow Light System Flowers are the sexual organs of plants. When the season changes from Spring to Fall, the plants prepare for reproduction. Since we will be removing the males, when this occurs, the females' buds will continue to grow and their THC content will continue to increase. You will need to use two different types of light for growing marijuana. This page describes the amount and kinds of light you'll need. During the stage of rapid vegetative growth, the plant will need a lot of blue-spectrum light turned on for most of the day. These lights are typically sold as daylight light bulbs. The color quality of lights is often measured on the package as color temperatue, expressed in Kelvin. The color temperature you want for this stage of growth will be higher, in the range of 6,500K. For great vegetative growth, you will need at least 2,000 lumens per square foot. There are several different types of lights that work well in this color range. If your budget is not particularly tight, you can purchase some Metal-Halide or MH lights. These lights are ideal for the vegetative growth phase of the growing process. They can produce significant qantities of light. MH lights require ballasts in order to operate, and tend to be more expensive. They also produce more heat. For a small grow operation, MH lights might actually be overkill. I would recommend fluorescents. There are 2 types of fluorescent lights that are usable for growing marijuana. There are grow-light fluorescent tubes. A popular brand of fluorescent grow-light tubes is Grow-Lux, but several other brands exist. These kinds of lights require fluorescent fixtures to be used, which are available at any hardware story for only $5-$10 and they are relatively easy to construct. The other type of fluorescent lights that can be used are known as CFL's. CFL's or compact fluorescent lights screw into standard bulb sockets and have a higher output of light. They can also be purchased in multiple spectrum ranges. For the vegetative phase, you want to use Daylight bulbs with a color temperature of 6,500K. When lit, they appear a clean white, almost blue color. CFL's are the choice for lighting in small grow operations. They emit very little heat and can be used with reflectorized clamp sockets available at KMART for as little as $5.00. For the flowering stage of growth, the plant will grow best with a high proportion of red-spectrum light (approximately 2,700K) turned on for only about half the day. The actual quantity of light should also be increased as well to at least 3,000 lumens per square foot. There are no fluorescent tubes available which offer good light in this specture. CFL's can reach this spectrum and are sold as soft white lights. They appear orangish-yellowish when lit. A brighter light that operates great in this spectrum is High-pressure Sodium light, or HPS. HPS lights require a ballast system to operate. HPS lights emit a lot of heat, so they should be placed farther away from the plants than the fluorescents. All this lighting stuff can be confusing, so the following list summarizes the pros and cons of the different lighting types. Metal-Halide: High intensity light that produces a lot of blue-spectrum light. Requires a ballast to be operated. Great for the vegetative phase. Fluorescent Grow-light Tube: Long tubes that produce blue-spectrum light. Requires fluorescent fixtures to be operated. Great for the vegetative phase. Compact Fluorescent Light: Small spiral shaped tubes that produce either blue or red spectrum light. Fit standard light sockets. Great for vegetative phase (daylight/6,500K) or flowering phase (soft white/2,700K). High Pressure Sodium: High intensity light that produces a lot of red-spectrum light. Requires a ballast. Great for the flowering phase. In reality, the sun never fully converts from one spectrum to the other. It can actually be beneficial to use both blue and red spectrum lights at all times. Instead of switching light sources entirely, choose a ratio of about 3:1 for either phase. That is, for the vegetative phase, use three times as much blue spectrum light as red spectrum light and for the flowering phase use three times as much red spectrum lights. You'll also need a timer for your lights. Timers are sold at any hardware store or Walmart for around $5. They can be programmed to have different on/off periods, which will simulate day/night periods. For the vegetative phase, you want to have longer day periods, usually 18 hours on, 6 hours off. For the flowering phase, shorter days signal the coming of fall, usually 12 hours on 12 hours off. Invest in a timer, because turning the lights on and off becomes a pain and forgetting can mean the difference between good and bad marijuana production.

pot farm guru: Fans, Air Movement, Humidity and Temperatures

pot farm guru: Fans, Air Movement, Humidity and Temperatures: Fans, Air Movement, Humidity and Temperatures Introduction The Growing Environment The most overlooked environmental factor affecting plant...

pot farm guru: Fans, Air Movement, Humidity and Temperatures

pot farm guru: Fans, Air Movement, Humidity and Temperatures: Fans, Air Movement, Humidity and Temperatures Introduction The Growing Environment The most overlooked environmental factor affecting plant...

pot farm guru: Fans, Air Movement, Humidity and Temperatures

pot farm guru: Fans, Air Movement, Humidity and Temperatures: Fans, Air Movement, Humidity and Temperatures Introduction The Growing Environment The most overlooked environmental factor affecting plant...

Fans, Air Movement, Humidity and Temperatures

Fans, Air Movement, Humidity and Temperatures Introduction The Growing Environment The most overlooked environmental factor affecting plant growth inside a growing environment or growing structure is airflow. Getting just the right degree of air movement across a leaf surface is vital to good production and yields and can mean the difference between high rates of photosynthesis occurring or none at all. Good air flow also assists temperature control, CO2 replenishment, reduces humidity and lowers the occurrence of certain diseases. Boundary Layers and the Leaf Flutter Effect A small amount of air movement - just enough to gently move or 'flutter' the leaf - has the effect of removing the stale, humid air from the boundary layer that lies just above and just below the leaf surface. This boundary layer of air supplies the leaf with CO2 and also holds much of the moisture transpired by the plant. If there isn’t any air movement, diffusion of water vapour out of the leaf and CO2 into the leaf begins to slow as the boundary layer air mixes too slowly into the rest of the environment. Air movement across the foliage creating a `flutter effect’, also assists photosynthesis and transpiration which plays a major role in calcium transportation, preventing blossom end rot and tipburn in certain plants. Temperature Control One of the most effective methods of cooling a growing environment is simply by having adequate ventilation and airflow drawn in from outside and vented out again. Obviously the amount to ventilation required to maintain the ideal temperature range will depend on such factors as the temperature of the incoming air, the heat load from lights in the growing area and the amount of air drawn into and flushed out on a regular basis. Optimal growing temperatures for warm season, high light crops differ depending on the level of CO2 provided in the growing environment. Where CO2 enrichment is used to maximum levels (in excess of 800 ppm), plants are able to maintain higher rates of photosynthesis under good light conditions where the temperature is run higher than normal. Temperatures in the range 80 F (27 C) to 92 F (32 C) with CO2 enrichment are recommended where light levels are high for warm season crops. Where CO2 enrichment is not being used, or is only being applied to prevent CO2 depletion by the plants and provide ambient levels (265 ppm), temperatures should be set lower to prevent 'plant stress' which can occur when conditions become too warm and stomata shut down to prevent excessive water loss. Temperatures for non enriched crops with good light levels are best kept in the range 75 F (24 C) to 85 F (29 C) for warm season crops. Night temperatures, when no CO2 enrichment should be carried out are best run at lower levels - this assists the plant to restore turgor pressure with an increased uptake of water at night. Temperatures in the range 65 F (18 C) to 75 F (24 C) are ideal for night or `non lighting’ periods. Humidity and Disease Control High humidity levels can become a major problem where plants with large leaf areas in a warm but restricted growing environment are continually transpiring and releasing water vapour into the air. Ideal humidity levels for flowering plants are in the range 30 - 50%, however the higher the humidity level, the greater the risk of certain plant diseases such as mildew and botrytis as well as bacterial infection where moisture forms on the leaf surfaces. Rapidly transpiring plants, with no air replacement can raise humidity levels within a very short time - conditions ideal for most disease to take hold. High humidity levels also slow the rate of plant transpiration (moisture loss from the leaves). Since transpiration is essential to not only cool the leaf surface but creates a suction effect resulting in water and mineral uptake and transportation within the plant, it is essential to keep the process going. Fans in a grow room, not only vent out humid air but bring in drier air to the growing environment and this is essential for not only good plant growth but also disease prevention. When humidity levels are high, condensation at night when it is generally cooler can become a major problem. Condensation on plant surfaces provides the perfect environment for many fungal spores and bacterial diseases to infect the plants. It takes only a few hours of high moisture levels for most diseases to infect plant tissue and take hold, so reducing humidity and preventing condensation are one way of protecting plants from disease outbreaks. Fan Types Required Airflow patterns should be considered in the design of any growing environment. The placement of fans, vents and air mixers needs to be arefully planned to create good air movement in through the inlet vents, over and under the plants and out again. For odd problem areas where still, moist air is collecting, small mixer fans can be installed. Intake and Exhaust or Vent Fans There are two types of fans commonly used in growing areas - intake and exhaust or vent fans. Intake fans pull air into the growing area, exhaust fans push it out. Exhaust or extraction fans which are positioned to extract warm moist air from the crop are the most useful, however an intake fan which draws in sufficient fresh air with an adequate vent system to allow stale air to be vented out works well, provided the fan is large enough for the area to be vented. Whatever sort of fan is being used to vent out and draw in fresh air, inside the growing area, air needs to be mixed and circulated over the plant surfaces. Osculating Wall Mounted and Pedestal Fans Circulation or mixer fans, which may be wall mounted, pedestal, or osculating types carry out the essential function of mixing the cooler, drier fresh air being brought in, as well as any CO2 enrichment to create a uniform temperature and prevent cold drafts from stressing the plants. These fans also carry out the role of gently moving the stale, humid boundary layer of air from around the leaf surface and replacing it with fresh, CO2 enriched air which stimulates both photosynthesis and transpiration. Mixer fans can be wall mounted to save space, but need to be carefully positioned and angled to get the greatest mixing and air movement effect. Stand up fans and osculating fans also need to be positioned with air movement in mind - and if any area of stagnant air (perhaps areas where fungal disease seem common) is found, small fans can be positioned to deal with these problems. The main objective is to not only get air circulating and mixing in the lower levels of the crop to reduce humidity and disease problems, but also over the tops of the plants where the most light is falling and maximum rates of photosynthesis are occurring. Spot checks on CO2 levels, temperature and humidity around the growing area and in the crop will help discover where air flow is not occurring sufficiently. Fan Controllers Ideally, fans should be linked to a thermostat - triggering increased air flow and ventilation when temperatures start becoming to warm, and the CO2 enrichment system if one is used. CO2 injectors which are designed to enrich fresh new air with CO2 as the inlet fan comes on are one way of making sure high levels of CO2 are always present when the lights are on. Fans should also be triggered to vent out warm, humid air and high CO2 levels just after the lights switch off at night. High levels of CO2 are not required at night when the plants are respiring and need to use oxygen only from the air. Condensation, can be a problem at night when temperatures cool and humidity in the air result in water forming on plants and other surfaces. Getting good air replacement or air changes in the first couple of hours after lights go off is one way of preventing diseases such as mildew and botrytis whose spores need very high humidity or free water on the leaf surfaces to germinate and infect the plants. If drier, fresh air is continually brought in so humidity is lowered and condensation does not form, then fungal and bacterial pathogens can’t attack the plants. Fans can also be linked to a thermostat and dehumidistat controller, which does the same as thermostat but adds on dehumidistat. Pre-set to desired humitity level. When grow room becomes to humit, the exhaust fan will turn on and suck the wet air out until preset levels are reached. By having control, our fan is not needed to be on full time without the expense of continual running. This type of system is ideal where the outside air temperature is cool and needs to be rapidly mixed and warmed when it enters the growing area. Where cool outside air temperatures exist, which might be many degrees below what is being maintained in the growing environment, continual air changes will result in sudden and continual drop in temperature resulting in 'thermal stress' on the plants. Fan Calculations Getting the size of the intake and exhaust fans right for the growing area is important for plant growth and development and disease prevention. The best set up is a system of two 'vents' - an intake vent set relatively low down at one end or corner of the growing area, with the exhaust or extractor fan set higher up at the opposite end of the room. The idea behind this is that cool, drier air sucked in from outside will flow up, through and over the crop (assisted by mixer fans in the room), and warmer, moist air which rises will be extracted by the fan at the other end. Step 1: The first step in working out the size of fan(s) required is to calculate the amount of air in the growing area. This is done by multiplying the length x the width of the room x the height of the room. This will give a value in cubic feet: For example, a 12 foot by 12 foot room with a height of 8 foot: 12 x12 x 8 = 1152 cubic feet of air inside the growing area. Ventilation fans are rated in the number of cubic feet of air they can move per minute. Step 2: Work out how fast one complete 'air change' needs to be carried out under warm conditions (i.e the maximum you will ever need the fan to operate). If excess heat in a certain growing environment is a common problem, or there is a large volume of plants growing in a very restricted space you will need more air flow per hour than for a larger growing area which doesn’t suffer from too much heat build up with smaller plants. Growers commonly underestimate just how much 'air exchange' is required to remove excess heat and humidity, bring in fresh CO2 and generally create fresh air movement over all of the plant surfaces. As a comparison to greenhouse crops growing in full sunlight - one air change per minute or 60 air changes an hour are often aimed for with large, mature crops growing under warm, humid conditions. However, in a grow room situation, one complete air change obtained in 4-5 minutes is acceptable. Obviously this needs to be more frequent where lighting is creating a lot of extra heat to be removed or when a CO2 generator is being used. Step 3: Divide the air volume of the growing area by the number of minutes required to get a full air change: If the room is 1152 cubic feet of air divide by 4 minutes. Fan capacity required is 288 cubic feet per minute (for just one extractor fan). Add on at least 1 medium sized mixer fan (either wall or stand mounted) for each 200 cubic feet of air, make sure these are equally spaced in the growing area. More smaller fans will be beneficial to increase air flow up and under plants in any 'stale air pockets' which may be prone to fungal or bacterial disease attack. While its relatively simple to work out the size of fan required for a certain size of growing area, other factors should be taken into account. If insect screens are installed over inlets, this reduces the rate at which air can be drawn in and both inlet size and fan size need to take this into account. If the inlets or outlets are not directly drawing in from or venting to the outside, but using long ducts, then a larger capacity fan or correct type of 'ducting fan' will be required, the size of which will depend largely on the distance air has to be pulled or pushed from outside. Conclusion Air movement with the correct sized fan, well placed mixer fans to displace stale boundary layer air around leaf surfaces and fan controllers to get maximum climate control are vital to the success of any indoor crop. Air movement is often over looked, but an essential part of maintaining optimal growth conditions by modifying temperature, humidity and CO2 levels at the leaf surface where the important plant process of photosynthesis and transpiration are occurring. Getting fan size and air movement calculations right means plants have the best conditions for growth, development and supreme yields.

pot farm guru: pest control

pot farm guru: pest control: Insecticide Use and Application In the world of bugs and the Indoor Growing the grower has many problems to over come. The question is what...

pot farm guru: pest control

pot farm guru: pest control: Insecticide Use and Application In the world of bugs and the Indoor Growing the grower has many problems to over come. The question is what...

pest control

Insecticide Use and Application In the world of bugs and the Indoor Growing the grower has many problems to over come. The question is what is the best method of eradication? With so many products available and different needs for each gardener to address, the retailer's may in some cases not be providing you with the best solution. As a promoter of Doktor Doom, I will give you an over view of the different types of Insecticides and when and what to use for specific problems. Generally, there are very few Insecticides that I would personally use for Crops that I would ingest. The most common for ingestible crops are: - Pyrethrums - Insecticidal Soaps - And non-Insecticide Control Beneficial Insects-Integrated Pest Management Of the three, if in a position to create the ideal environment, including;cleanliness, ideal temperature and humidity, using the Beneficial Insects are the way to go. cccc this environment is very difficult to create, unless you maintain the 'perfect ideal conditions'. Being able to use Beneficial Insects is often inferior to applications of Insecticides and not nearly as cost effective. Oil & Soap based Insecticides have their benefits, but when compared to pyrethrums (for plant application & permethrins, for over all insect control within a growing environment) They do not work as well. Oil based Insecticides (Dormant Oil, Horticultural Oil) can cause stress and phyto-toxic damage to plants that they are applied to. I would like to mention Neem Oil in this category. Neem oil is a systemic growth inhibitor and not officially Registered as an Insecticide. Neem oil does have its benefits in that it will prevent some bugs from evolving. Neem oil is absorbed through the plant and into the plants vascular structure. When the plant has fully absorbed the active ingredient (about 10 days after application) and an insect eats the plant the neem oil will cause molting (prevents the host bug from laying eggs) which in turn will reduce the bugs in the environment, neem oil does not kill on contact without totally saturating the plant. This is detrimental to the plants as you slow the photo- synthesis process due to clogging the plants stomata. As gardeners go in and out of the Indoor Growing environment they are continuously introducing new bugs to their growing area, the number one line of defense is to take the offense and apply Residual based Insecticides throughout the growing environment prior to introducing any plants to the growing area. After applying Residual based products it is now time to create a regular maintenance program for the plants themselves. Using pyrethrum based products will provide you with excellent results, that will prove to be time saving and cost efficient. Top Ten Indoor Gardening Bug Prevention Tips 1. Start with a clean & sterile growing environment, this includes all equipment, pots, trays, liners, all growing medium and all other tools of the trade that will be used in this environment. After cleaning the area apply Doktor Doom Residual Insecticide Spray which provides weeks of bug killing Residual with just one application-saving you time & money. 2. Make certain that any Fresh Air Intakes & Filters are treated with a Residual based Insecticide inside and outside. 3. Always use the same clothes that have been treated with a Residual based Insecticide, similar products to Doktor Doom Residual Spray in the USA are approved by the EPA for application on the outside of your clothing to prevent mosquitoes from landing and biting you- for those of you concerned about the West Nile Virus. This also means that you should not allow anybody or your pets in this environment unless they have been treated prior to entry. 4. Be certain to start with BUG FREE PLANTS- apply a light misting of a pyrethrum based Insecticide prior to introducing the Plants to your sterile growing environment- Doktor Doom Botanic's Plant Spray has the highest concentration of Pyrethrums available in a plant spray. 5. When pruning and doing plant maintenance be certain to discard all green growth, leaves etc that you have removed or that have fallen from the plants immediately out of the growing area- this green growth is a prime breeding & feeding medium for bugs. 6. Regularly check your plants for bugs. Particularly spider-mites, be certain to remove any webbing and crush any insects that you see with your fingers. After this, apply Doktor Doom Botanic's Plant spray. A light mist is all that is required and pay special attention to the underside of the leaves. 7. Referring to number 6 if you did see bugs, it would benefit you now to apply Doktor Doom Fumigators on 3-4 day intervals before you apply the Botanic's Plant Spray for each application. 8. Always apply any Insecticides that you choose to use in the dark. Sunlight and artificial light dramatically reduces the effectiveness of all Insecticides as well and more importantly applications in direct light burn your plants. 9. The best time for an application of an Indoor environment is about 3 hours after the lights have been turned off. The reason being is that when the lights are ablaze, the heat in the Indoor Growing area is too hot for bugs. They like to move around and chew plants when the temperature is in the 70's. Consequently they are a lot more active when the room has cooled, so to save time & money and get the most out of any products that you choose for this application, apply the products well after the lights have been turned off. 10. When Fumigating your Indoor Growing environment be certain to put out all open flames particularly over head CO2 Generators & turn off all exhaust fans. Doktor Doom Insecticides are designed for the Indoor & Outdoor Gardener. Our formulations are all pH balance and contain no artificial oils, perfumes or attars. Doktor Doom Botanic's Plant Spray bare to none, is the best on the market. It does not contain any PBO's. PBO's are not approved for Organic Gardening. Doktor Doom Fumigators are the lazy man's guide to simple and effective bug control.lock the actuator in place and leave for a few hours. When you return you have successfully killed any insect that the mist has contacted, this provides you with peace of mind as you can concentrate your energies on more fruitful endeavors within your growing environment, as you may have already eradicated your bug problems. Doktor Doom House & Garden and Doktor Doom Residual Sprays are the best aqueous based Residual Sprays available on the market. Letting you in on trade secrets, our residual activity lasts a lot longer than any of the competition, again designed to save you time and money. Do not use any systemic or organophosphate Insecticides that are not approved for use on FOOD CROPS. This list includes Avid, Cygon, Malathion & Diazanon. Malathion & Diazanon are being banned and will no longer be available to consumers for home use in the near future. Neem oil has it's benefits but if you are making essential oils from the crops you grow it does leave a nasty flavor in the oils and again it is not a contact killer. It takes 10 days for it to work. If you are using Doktor Doom Products we always recommend that you apply the products according to the Label Direction. For your own personal safety, it is highly recommend that you use a light dust mask while you are applying our products in an indoor environment. Control Mites are not insects and many insecticides will not adequately control them. Specially formulated products (miticides) are available for mite control.Make sure to check all insecticide or miticide labels before application as some plants are sensitive to these materials. Most will kill only adult stages and not eggs, therefore a second and possibly a third application may be necessary to control newly hatching mites. At room temperatures, applications should be 10-14 days apart. Predatory control of two-spotted spider mite on cucumbers and tomatoes. Introduce the predatory mite Phytoseiulus persimilis at the rate of 1 /plant at the first sign of spider mites or damage. Repeat at weekly until established in the crop.

pot farm guru: seeds

pot farm guru: seeds: Your marijuana seeds: Marijuana seeds need moisture, warmth and darkness for successful germination. We recommend you use clean water....

pot farm guru: seeds

pot farm guru: seeds: Your marijuana seeds: Marijuana seeds need moisture, warmth and darkness for successful germination. We recommend you use clean water....

seeds

Your marijuana seeds: Marijuana seeds need moisture, warmth and darkness for successful germination. We recommend you use clean water. (The best to use is distilled water!). Most municipal water supplies have clean, pH neutral water that is very suitable for germination. A small amount of chlorination is best for killing a lot of the parasites in the water. If the local water supply is not of good enough quality to drink then don't use it to germinate cannabis seeds. Bottled spring water, without additives or carbonation, is usually a good source of water for germination. What to do For best germination results, put the Marijuana seeds on clean wet paper towel, room temperature water. Cover the cannabis seeds with a layer of soaked paper towel. The Marijuana seeds should be left to soak in a dark warm place (65 - 80 degrees F or 18.5 C - 26.5 C). A kitchen cupboard is usually best. Check the cannabis seeds about every 12 hours. If the paper towels feel a little dry add a little water. Usually within 48 hours the Marijuana seeds plump up and split their outer seed casings. DO NOT continue soaking after the white, initial roots are visible at the crack in the seed casings. The cannabis seeds are ready to plant at this point. Soaking the Marijuana seeds until the roots are exposed can result in stressful, early root damage. Plant the cannabis seeds in a clean, pH balanced medium. The medium should be loose and light with very good drainage. i suggest a blend of Perlite, vermiculite and sphagnum moss. This can be purchased premixed and can be used alone or mixed with light, sterilized potting soil. Marijuana seeds should be planted about 1/4 to 1/2 inch deep in containers at least 4 inches deep to allow the initial tap root to grow straight down. The planter should have drainage holes to prevent drowning the seeding. The medium or soil should be thoroughly damp, but not soaked. High humidity is essential to good germination rates. make sure the planted cannabis seeds covered with clear plastic. Place the planted Marijuana seeds under horticultural lights or a cold frame in a warm humid environment, (20 - 25 degrees C / 67 - 78 degrees F). Remove plastic covers, once the cannabis sprouts have cleared the soil surface and the first true serrate leaves are forming. Keep medium and soil damp and fertilized with quarter to half strength vegetative fertilizer during this stage and watch'em grow. Some varieties of Marijuana seeds will not germinate at room temperature but germinate fine at 90 degrees, about 20 degrees higher than room temperature. Note! NEVER, NEVER LET THE SEEDS DRY OUT!! Do not use bleach or mix bleach with the water. USING BLEACH WILL KILL YOUR SEEDS

pot farm guru: How to make Bubble hash.

pot farm guru: How to make Bubble hash.: Hash extracted using cold water is known as water hash.When very pure has will bubble releasing resins when smoked.Thats where the name "Bub...

pot farm guru: flushing a plant what it means and why you should ...

pot farm guru: flushing a plant what it means and why you should ...: What flushing a plant means is to run a lot of water though it flushing away all the nutrients that have built up over the past three to fou...

pot farm guru: flushing a plant what it means and why you should ...

pot farm guru: flushing a plant what it means and why you should ...: What flushing a plant means is to run a lot of water though it flushing away all the nutrients that have built up over the past three to fou...

pot farm guru: flushing a plant what it means and why you should ...

pot farm guru: flushing a plant what it means and why you should ...: What flushing a plant means is to run a lot of water though it flushing away all the nutrients that have built up over the past three to fou...

pot farm guru: flushing a plant what it means and why you should ...

pot farm guru: flushing a plant what it means and why you should ...: What flushing a plant means is to run a lot of water though it flushing away all the nutrients that have built up over the past three to fou...