Hydroponic Lettuce Production

Lettuce production in the past years has seen a multifold increase, thanks to Hydroponic Lettuce Production systems. Through Hydroponic Lettuce production, the produce is more predicatable, clean and hygienic and also uniform in terms of appearance and taste. Learn about Hydroponic Lettuce Production in this post and grow lettuce that is amazing to taste.


What is Hydroponics?

Hydroponics is a science in which plants are grown in water that contains all the essential nutrients necessary for the plants to grow, flower and fruit. While the name ‘Hydroponics’ refers to growing plants in water, practically speaking it is not always the case. Hydroponics nowadays simply means growing in a media that is inert and lets the grower provide all the nutrients required. It is also known as soil-less culture. There are variety of media that are used for hydroponic culture. Some of them are cocopeat, rockwool, perlite, expanded clay, sand, gravel, vermiculite, rice husk etc.

There are lot of material in the internet. I recommend the following book if you want to learn about hydroponics.
Hydroponic Food Production: A Definitive Guidebook of Soilless Food-Growing Methods

In this post, we are going to focus only on growing lettuce in NFT/DFT.

What is Nutrient Film Technique

In Nutrient Film Technique , a thin film of water continuously  flows through the pipe/gutter always being in contact with the root. This ensures constant availability of nutrients to the plant and also ample oxygen since the root are exposed above the thin film. Since it is a very thin film, there is no stagnant water at all. This system requires the nutrient solution to be continuously in circulation. This translates to the pump being always on. In our condition with frequent power cuts, that is just not possible at all. If the pump fails, the system immediately runs dry.

Deep Flow Technique

Deep Flow Technique, on the contrary always has some amount of nutrient solution (NS) at some depth. More nutrient is periodically pumped in and through the overflow pipe the excess NS goes back to the reservoir. Even when there is  a power outage, there is always some amount of water to keep the plants alive. So naturally, I chose this method to grow lettuce in it. I had grown lettuce in pots before using cocopeat as a medium and got very good results. Always wanted to grow in NFT/DFT to compare the results and the timing was just right.


Seed Starting

The variety of lettuce I chose was “Green Salad Bowl”. The seeds used were saved from the previous batch of lettuce. Needless to say, germinating/seed starting them was a breeze. Good lettuce seeds germinate in 3 days. Lettuce seeds need sunlight to germinate. A common mistake is burying them with media. Usually they will germinate, but it will be sparse. Take good quality potting media. For hydroponics, using just cocopeat is fine.  Moisten the cocopeat in such a way if you squeeze the peat it gives out very little water and when you open your hands, the cocopeat remains as it was and doesn’t fall apart. Make tiny pits in the cocopeat where the seeds will be sown.

Sow two seeds per cell. Gently press the seed on the surface of the mix such that a portion of it is visible. Cover the tray with transparent/translucent polythene bag. Keep checking for signs of germination. The moment you see a green sprout coming out, remove the cover and keep it in a bright place. DO NOT KEEP IT COVERED after the germination. It will lead to leggy seedlings.


Hydroponic Lettuce Production

Day 1


Sowing two per cell makes up for the seeds that wont germinate. Sunlight and nutrients are very essential after the true leaf emerges. For seedlings, half strength nutrient solution is recommended. Since they are very tender, higher concentration might actually burn the root. Half strength 19-19-19 is good enough to raise transplants.

Hydroponic Lettuce Production

Day 3


About two weeks later, the seedlings are well grown and are ready for transplant. Infact, they have overgrown in that small seedling tray. I was out for 3-4 days during that time and they remained in the cell longer than they should. Now is the time for transplant.

Hydroponic Lettuce Production

Two weeks later


The picture to the left below, is the transplant and to the right is the lettuce seedling planted in a net pot. Ideally the netpot is filled with a coarse media so that it doesn’t fall into the pipe. But materials like hydroton are not available easily and they are quite expensive as well. So a little customization was done. The netpot is approx 2″ dia (I think). In the bottom, I made a hole so that the root of the plant can pass through it and come out. Next, I take the transplant from the cell, wash off the cocopeat with running water. Take a piece of styrofoam and cut it to make a circular disc. Now cut a small pie out of it. Hopefully the following picture makes sense. Pardon my drawing skills.



Hydroponic Lettuce ProductionHydroponic Lettuce Production

All this styrofoam gymnastics is to keep the plant intact in the netpot and it also stops light from entering. Filling the netpot with cocopeat is not a good idea. One can fill it with coco husk chips. Usually the sides of the netpots are for roots to come out but in our setup the netpot is to simply anchor the plant in the pipe.

Now comes the main part of the system. The PVC pipe. This is literally the back bone of the system. The pipe chosen for this is a 4″ dia PVC pipe.  Holes of 2.5″ dia were drilled using a hole saw cutter in order to house the netpots. This is made in shape of a U but it needn’t be the same way. One can have a single long pipe and that should do well . Ensure the endcaps are sealed well and there is no leakage.

The pipe should be properly leveled such that there is no slope. Remember this is DFT. We don’t need slope here. One of the two end caps has an outlet through which the water flows out. At any point, there is always 2-2.5″ of nutrient solution present in the pipe. Anything more than that pumped in automatically overflows into the reservoir. Check out one of the pictures below for the picture of the overflow pipe. It can be kept in the side or in the bottom also. In case of placing it in the bottom, ensure a depth of 2.5″ of nutrient solution is maintained.

PVC Nutrient Film Technique - Hydroponic Lettuce Production


Now that the pipe and the transplants are ready, it is just a matter of fitting them in. No digging, etc.Fill the pipe with enough nutrient solution and Just snap the pots  in. Nice eh?

PVC Nutrient Film Technique - Hydroponic Lettuce Production

Aug 23


With the help of a timer, the nutrient solution is periodically circulated in order to not cause any oxygen depletion. The pH and the EC was also continuously monitored to maintain the conducive environment.  It can be seen from the below picture. NS enters via the black tube at the top left into a hole and comes out on the other end and drops into the reservoir from a height. The turbulence and splash causes airbubbles to mix with water there by causing oxygenation.

PVC Nutrient Film Technique - Hydroponic Lettuce Production

Aug 30


Considerable growth is observed after 10 days of transplant. Slowly they are starting to fill the pipe.

PVC Nutrient Film Technique - Hydroponic Lettuce Production

Sep 4


Twenty days after transplant and they are already looking gorgeous. Everyone who saw this had a big “Wow”. The inlet and the outlet holes are clearly visible in the picture below.

PVC Nutrient Film Technique - Hydroponic Lettuce Production

Sep 12


The same setup from the other side of the pipe. Uniform growth and the growth rate was phenomenal. Every day I could see great improvements in size.

PVC Nutrient Film Technique - Hydroponic Lettuce Production

PVC Nutrient Film Technique – Hydroponic Lettuce Production


Lettuce Size

Getting bigger and bigger


Lettuce in all its glory


At this point, the lettuce has reached its final size. Trust me the picture doesn’t do justice. Each lettuce plant looks like a big ball of leaves and is too much for two people to consume. One bunch has enough leaves for a salad for 3-4 people. The market lettuce I saw recently was a small bunch at a crazy price.

One Month Old Lettuce  -PVC Nutrient Film Technique - Hydroponic Lettuce Production

A month after transplant


The variety stands to its reputation. Green Salad bowl. With frills and curves in the leaves, it is an attraction by itself in my garden.

One Month Old Lettuce  -PVC Nutrient Film Technique - Hydroponic Lettuce Production

Reached their final size or Did they?


Check out the white roots. Everytime I check the plants, I focus on the roots first. It is very important to check on the roots. If the roots are brown that is an indication that they are not getting enough oxygen. In this situation, no matter how much nutrients you put the plant just cannot take it.


Healthy white roots - Hydroponic Lettuce Production

White roots; Indication of healthy roots


Harvested Lettuce - Hydroponic Lettuce Production

From pipe to plate

After the harvest, I weighed the lettuce first. It came to about 260-280 on an average.With some modifications to the system, increase in the weight can also be achieved.

Harvested Lettuce - Hydroponic Lettuce Production

Doubles up as an ornamental


Fresh Lettuce - Harvested Lettuce - Hydroponic Lettuce Production

Fresh Lettuce


The water quality is also important. The water source I have is hard water and the nutrients had to be tailored for the same. Though this post is complete, there is more to be written on growing lettuce in the coming posts.  With the information on Hydroponic Lettuce Production, you can start growing lettuce in hydroponic systems in your garden.



Hydroponic Lettuce Production using Nutrient Film Technique in Bangalore, India
Article Name
Hydroponic Lettuce Production using Nutrient Film Technique in Bangalore, India
This post is about how to grow lettuce/salad crops using hydroponic methods such as Nutrient Film Technique (NFT) and DFT. NFT stands for Nutrient Film Technique. It uses hydroponic nutrients circulating through the pipe and the plants are placed in net pots.
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