Plantbio Digest, Vol 43, Issue 2
I believe Marine aquatic plant physiology can help also to answer that question.
Plants growing at 1, 5, 10, 20, or even 50 m undersea have different hyperbaric conditions and therefore, some effect on marine vegetation physiology should be observed. In internet we find any kind of references like the guy who claims that plants do not stop growing under hyperbaric conditions: "In two years a tomato plant grown in a hyperbaric chamber grew to a height of 16 feet and produced 930 tomatoes! That's not all! It didn't stop growing! " at this site: http://www.geocities.com/johnh_vanbc.../preflood.html An interesting question answer we find in this Web site: http://www.madsci.org/posts/archives...4676.Bt.r.html Can plants grow at gretaer than atmospheric air pressure Date: Mon Feb 2 17:18:09 2004 Posted By: David Hershey, Faculty, Botany, NA Area of science: Botany ID: 1075527828.Bt Message: Growing plants at above normal atmospheric pressure would involve a hyperbaric chamber. One recent study on ginkgo found as much as a 250% increase in the photosynthesis rate when the carbon dioxide was increased 500% and atmospheric pressure was increased 25%. I contacted the lead author, Sara Decherd, and she kindly told me that they found no significant effect on photosynthesis with a 25% increase in atmospheric pressure alone. She was also not aware of much other research on plant growth in hyperbaric chambers. It seems to be an area that has not been thoroughly studied. The ginkgo research was recently featured in a news release, "A Lot of Hot Air: How the Dinosaurs Grew So Monstrous." NASA has done work on growing plants at less than atmospheric pressure in hypobaric chambers. Hypobaric greenhouses with one-sixteenth the pressure of an Earth atmosphere may be required for Mars colonization. At normal atmospheric pressures, increasing the carbon dioxide concentration up to about 1,000 ppm often increases plant growth. Current atmospheric carbon dioxide is about 360 ppm. Thus, you might expect a positive effect on plant growth in a hyperbaric chamber. I doubt a soda bottle would be a satisfactory hypobaric chamber. It would be difficult and expensive for a school student to maintain an elevated carbon dioxide level in a hyperbaric plant growth chamber because a plant can rapidly deplete the carbon dioxide given its low concentration and the limited chamber volume. Be very cautious if you try to make your own hyperbaric chamber because an explosion is always a possibility. It would be much easier to demonstrate effects of carbon dioxide enrichment at normal atmospheric pressures. A soda bottle system to inexpensively induce carbon dioxide deficiency in plants can be built using rubber stoppers, aquarium tubing, aquarium valves and an aquarium air pump (Hershey 1992, 1995). The same system could be used to elevate the carbon dioxide level using dry ice or acid mixing with calcium carbonate as a source of carbon dioxide |
All times are GMT +1. The time now is 04:08 AM. |
Powered by vBulletin® Copyright ©2000 - 2024, Jelsoft Enterprises Ltd.
GardenBanter