References

Many of the studies we used as reference materials require subscriptions to view in their entirely but most are now in the public domain or will have a free summary available: 

Urban Forest Research Center, National Institute of Forest Science, Seoul, Agricultural and Life Sciences, The University of Tokyo, Yayoi 1‑1‑1, Bunkyo‑ku, Tokyo 

Judit Dobránszki (2021) Application of naturally occurring mechanical forces in in-vitro plant tissue culture and biotechnology, Plant Signaling & Behavior, 16:6, 1902656,

PQM-1 controls hypoxic survival via regulation of lipid metabolism

Thomas Heimbucher, Julian Hog, Piyush Gupta & Coleen T. Murphy

Department of Microbiology, Immunology, and Molecular Genetics, University of California, Los Angeles, CA, USA

Banerjee N, Hallem EA

(2020). The role of carbon dioxide in nematode behavior and physiology. Parasitology 147, 841–854.

Aerenchyma formation in the rice stem and its promotion by H2O2

Bianka Steffens, Thomas Geske and Margret Sauter

Physiologie und Entwicklungsbiologie der Pflanzen, Botanisches Institut, Universita¨t Kiel, Germany

Photosynthetic Response to Elevated Carbon Dioxide Concentrations in the aerenchyma of Typha Latifolia L. Leaves.

John Van horne Constable 1993

Louisiana State University and Agricultural & Mechanical College

Precision and Intelligence Laboratory, Tokyo Institute of Technology ,Nagatsuta-cho

Batangas State University, College of Engineering, Architecture and Fine Arts, Pablo Borbon Main II, Alangilan, Batangas City, Philippines

Batangas State University, College of Engineering, Architecture and Fine Arts, Pablo Borbon Main II, Alangilan, Batangas City, Philippines

Emerson Process Management Beverage (Carbonated Drink) - De-aeration

J. Aquat. Plant Manage. 45: 76-83

In-vitro Investigations on Ultrasonic Control of Water Chestnut

MEI-YIN WU1 AND J. WU

Corresponding author: Center for Earth and Environmental Science,

State University of New York, College at Plattsburgh

Department of Physics, University of Vermont

Aerenchyma Carbon Dioxide Can Be Assimilated in Typha latifolia L. Leaves

John V. H. Constable and David J. Longstreth

Plant Physiology

Volume 52, Issues 1–2, September 1995, Pages 93-106

Aquatic Botany

CO2 and O2 transport in the aerenchyma of Cyperus papyrus L.

Michael B.Jones

Broad oxygen tolerance in the nematode Caenorhabditis elegans

W.A. Van Voorhies, S. Ward

Author and article information

J Exp Biol (2000) 203 (16): 2467–2478.

AUGUST 2000

On cryptobiosis and anoxibiosis:

N. Dasgupta, A. M. Patel, B. A. Scott, C. M. Crowder, Hypoxic preconditioning requires the apoptosis protein CED-4 in C. elegans. Curr. Biol. 17, 1954-1959 (2007). [PubMed]

Oxygen-Starved Worms

JOHN F. FOLEY

SCIENCE'S STKE • 27 Nov 2007 • Vol 2007, Issue 414 • p. tw432 • DOI: 10.1126/stke.4142007tw432

Van Voorhies WA, Ward S. Broad oxygen tolerance in the nematode Caenorhabditis elegans. J Exp Biol. 2000;203(Pt 16):2467–78. Epub 2000/07/21.

Division of Parasitology, Department of Infectious Diseases, Faculty of Medicine, University of Miyazaki, Miyazaki, Japan

The Aquatic Gardener 10 (1997): 126-131 Water Plants 101: Dave Huebert

A. M. Humphrey, “Chlorophyll as a color and functional ingredient,” Journal of Food Science, vol. 69, no. 5, pp. 422–425, 2004.

Chlorophyll Extraction from Microalgae: A Review on the Process Engineering Aspects Aris Hosikian, Su Lim, Ronald Halim, and Michael K. Danquah Bio Engineering Laboratory (BEL), Department of Chemical Engineering, Monash University, Victoria (2010)

“Fluorescence measurements of free Mg2” Elisabeth M Froschauer, Martin Kolisek, Frank Dieterich, Monika Schweigel, Rudolf J Schweyen, Max F Perutz Laboratories Department of Microbiology and Genetics University of Vienna Campus Vienna Biocenter, Dr Bohrgasse 9 A1030 Vienna Austria

“Water content quantitatively affects metabolic rates over the course of plant ontogeny”

State Key Laboratory of Grassland AgroEcosystem School of Life Sciences Lanzhou University Lanzhou 730000 China, College of Forestry Southwest Forestry University Bailongsi China, Department of Biological Sciences Missouri University of Science and Technology, School of Integrative Plant Science Plant Biology Section Cornell University 

“Determination of elements in algae by different atomic spectroscopic methods”

(MG2++ and Carbonic Acid analysis) Attila József University Department of Inorganic and Analytical Chemistry Szeged Hungary, Albert Szent Györgyi Medical University Department of Pharmacognosy Szeged Hungary, School of Pharmacy Portsmouth Polytechnic Portsmouth UK

Studies on Sonication of Plants for Accelerated Growth:

Sonication and ultrasound: Impact on plant growth and development

Beneficial effects of ultrasound on plants—a review - ScienceDirect

TOVATECH

Tovatech - The Source for Ultrasonic Cleaners & Lab Equipment for More than 10 Years.

Greenhouse Product News

Effects of Blue Light on Plants

Erik Runkle

FEBRUARY 2017

Ultrasound has been investigated as a control for zoo[1] plankton in ballast water.

Holm et al. (2008) tested ultrasound effects on a cladoceran (Ceriodaphnia dubia), rotifers (Brachionus plicatilis, B. calyciflorus, and Philodina sp.), and brine shrimp (Artemia sp.).

The Potential Use of Ultrasound to Control the Trematode Bolbophorus confusus by Eliminating the Ram's Horn Snail Planorbella trivolvis in Commercial Aquaculture Settings

Bradley T. Goodwiller & James P. Chambers, Pages 485-488 Sep 2012

Ultrasound has been investigated as a method for zebra mussel (Dreissena polymorpha) control. (Kowalewski et al. 1993, Donskoy and Ludiyanskiy 1995).

Donskoy and Ludiyanskiy (1995) cite research in which ultrasound ranging from 20kHz to 380kHz was used to induce cavitation and mortality in veliger, juvenile, and adult zebra mussels.

The Potential Use of Ultrasound to Control the Trematode Bolbophorus confusus by Eliminating the Ram's Horn Snail Planorbella trivolvis in Commercial Aquaculture Settings

Bradley T. Goodwiller

& James P. Chambers

Pages 485-488 | Received 27 Jan 2012, Accepted 09 Apr 2012, Published online: 10 Sep 2012

Ultrasonics Sonochemistry

Volume 13, Issue 5, July 2006, Pages 446-450

Ultrasonics Sonochemistry

Ultrasonic frequency effects on the removal of Microcystis aeruginosa

2005.09.012

Effects of ultrasound irradiation on the growth of Japanese radish sprouts. Marie Tabaru[1], Ryusuke Fujino and Kentaro Nakamuray

Electrical Stimulation and Effects on Plant Growth in Hydroponics

Bonghwan Kim and Kyunghan Chun

University of Daegu

Solar-Powered Electroculture Technique For Backyard Farming

Elenor M. Reyes, GlennJordan M. Achico

Accelerated Plant Growth--https://www.motherearthnews.com/organic-gardening/plant-growth-zmaz84mjzloeck/

Molecular strategies for improving waterlogging tolerance in plants

E.S. Dennis, R. Dolferus, M. Ellis, M. Rahman, Y. Wu, F.U. Hoeren, A. Grover, K.P. Ismond, A.G. Good, W.J. Peacock

Journal of Experimental Botany, Volume 51, Issue 342, January 2000, Pages 89–97

Determination of elements in algae by different atomic spectroscopic methods.