A simple and versatile 2-dimensional platform to study plant germination and growth under controlled humidity.

A simple and versatile 2-dimensional platform to study plant germination and growth under controlled humidity.

We describe a simple, inexpensive, but remarkably versatile and controlled growth environment for the observation of plant germination and seedling root growth on a flat, horizontal surface over periods of weeks. The setup provides to each plant a controlled humidity (between 56% and 91% RH), and co...

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Main Authors: Tom Sizmur, Kara R Lind, Saida Benomar, Hannah VanEvery, Ludovico Cademartiri
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2014-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4013031?pdf=render
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spelling doaj-ac6638ed41c54d46b7a8f4ce6663aa0a2020-11-24T21:50:43ZengPublic Library of Science (PLoS)PLoS ONE1932-62032014-01-0195e9673010.1371/journal.pone.0096730A simple and versatile 2-dimensional platform to study plant germination and growth under controlled humidity.Tom SizmurKara R LindSaida BenomarHannah VanEveryLudovico CademartiriWe describe a simple, inexpensive, but remarkably versatile and controlled growth environment for the observation of plant germination and seedling root growth on a flat, horizontal surface over periods of weeks. The setup provides to each plant a controlled humidity (between 56% and 91% RH), and contact with both nutrients and atmosphere. The flat and horizontal geometry of the surface supporting the roots eliminates the gravitropic bias on their development and facilitates the imaging of the entire root system. Experiments can be setup under sterile conditions and then transferred to a non-sterile environment. The system can be assembled in 1-2 minutes, costs approximately 8.78$ per plant, is almost entirely reusable (0.43$ per experiment in disposables), and is easily scalable to a variety of plants. We demonstrate the performance of the system by germinating, growing, and imaging Wheat (Triticum aestivum), Corn (Zea mays), and Wisconsin Fast Plants (Brassica rapa). Germination rates were close to those expected for optimal conditions.http://europepmc.org/articles/PMC4013031?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Tom Sizmur
Kara R Lind
Saida Benomar
Hannah VanEvery
Ludovico Cademartiri
spellingShingle Tom Sizmur
Kara R Lind
Saida Benomar
Hannah VanEvery
Ludovico Cademartiri
A simple and versatile 2-dimensional platform to study plant germination and growth under controlled humidity.
PLoS ONE
author_facet Tom Sizmur
Kara R Lind
Saida Benomar
Hannah VanEvery
Ludovico Cademartiri
author_sort Tom Sizmur
title A simple and versatile 2-dimensional platform to study plant germination and growth under controlled humidity.
title_short A simple and versatile 2-dimensional platform to study plant germination and growth under controlled humidity.
title_full A simple and versatile 2-dimensional platform to study plant germination and growth under controlled humidity.
title_fullStr A simple and versatile 2-dimensional platform to study plant germination and growth under controlled humidity.
title_full_unstemmed A simple and versatile 2-dimensional platform to study plant germination and growth under controlled humidity.
title_sort simple and versatile 2-dimensional platform to study plant germination and growth under controlled humidity.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2014-01-01
description We describe a simple, inexpensive, but remarkably versatile and controlled growth environment for the observation of plant germination and seedling root growth on a flat, horizontal surface over periods of weeks. The setup provides to each plant a controlled humidity (between 56% and 91% RH), and contact with both nutrients and atmosphere. The flat and horizontal geometry of the surface supporting the roots eliminates the gravitropic bias on their development and facilitates the imaging of the entire root system. Experiments can be setup under sterile conditions and then transferred to a non-sterile environment. The system can be assembled in 1-2 minutes, costs approximately 8.78$ per plant, is almost entirely reusable (0.43$ per experiment in disposables), and is easily scalable to a variety of plants. We demonstrate the performance of the system by germinating, growing, and imaging Wheat (Triticum aestivum), Corn (Zea mays), and Wisconsin Fast Plants (Brassica rapa). Germination rates were close to those expected for optimal conditions.
url http://europepmc.org/articles/PMC4013031?pdf=render
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