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  Re: [Aroid-l] ?? Water-loving Anthurium species
From: Adam Black <epiphyte1 at earthlink.net> on 2009.09.28 at 05:21:18(20085)
To expand on the techniques Julius mentions for growing aquatic aroids, here is how we grow seedlings of the cold-sensitive giant Victoria water lilies in a greenhouse in the winter to give them a head-start before planting them in the outdoor ponds when the weather warms up. I have great luck including my pots of Cyrtosperma, Montrichardia, Lasia, Lasiomorpha, Anubias, etc in these tanks during the winter.

We use a 10 foot diameter galvenized stock tanks used for watering cattle (they are about two feet deep, don't know exactly, and don't know how much water they hold) inside a greenhouse. To heat the water, we use a "backpack" style mini water heater normally intended for use in RV's/campers. An ordinary water pump made for pond waterfalls is connected to the heater via flexible tubing, and this pumps water from the tank into the water heater. The heated water is then routed back into the tank through PVC pipe, directing the water away from the intake pump in a direction that circulates the water all the way around the tank in a circular pattern back towards the pump.

With the volume of water in the above mentioned tank, it is not effective to wait until the water is cold before turning the water heater on, as it is unable to heat it up sufficiently in a relatively quick manner. This might be different if a smaller volume of water was used. A tank located in a sunny greenhouse will collect a lot of heat during the day that gradually gets released through the night, and therefore having the heater run continuously 24 hrs/day will do a great job at maintaining the warm water temperatures through the night. The heater we use has a built-in thermostat so it isn't constantly running, switching off during the warmer portions of the day. With this method, in an unheated greenhouse the water will be around 78 degrees Farenheight when it is below freezing outside. Of course there are a number of factors to consider - greenhouse size, sun exposure (heat build-up during the day), volume of water vs capacity of water heater, daytime high temperatures outside of greenhouse, supplemental ambient heating in greenhouse, etc. This is our experience in northern Florida where we regularly experience a number of nightly hard freezes each winter.

As an added benefit, this method can be used as supplemental heating for a smaller greenhouse, reducing the energy demands on traditional greenhouse heaters that are controlled by thermostats. Quite a bit of heat is released into the greenhouse through the night from the warm water. Supplemental heat may not be even necessary during mild cold snaps in a smaller greenhouse, depending on the ratio of water volume to the size of the greenhouse.

For anyone who wants to keep a large collection of tropical aquatic aroids and other plants, this is a good option for at least overwintering. This method could easily be adapted to a more natural looking in-ground greenhouse pond as well. In addition to the heat, the continuous water circulation surely benefits the plants. Though aquatic plants are often growing in seemingly anaerobic conditions in nature, stagnant conditions in artificial situations (pots) can be fatal to many aquatic plants.

Adam Black

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