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Plant ethylene detection using laser-based photo-acoustic spectroscopy

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Abstract
Analytical detection of the plant hormone ethylene is an important prerequisite in physiological studies. Real-time and super sensitive detection of trace amounts of ethylene gas is possible using laser-based photo-acoustic spectroscopy. This Chapter will provide some background on the technique, compare it with conventional gas chromatography, and provide a detailed user-friendly hand-out on how to operate the machine and the software. In addition, this Chapter provides some tips and tricks for designing and performing physiological experiments suited for ethylene detection with laser-based photo-acoustic spectroscopy.
Keywords
ETD-300, Ethylene, Laser-based photo-acoustic spectroscopy, Real-time measurements

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MLA
Van de Poel, Bram, and Dominique Van Der Straeten. “Plant Ethylene Detection Using Laser-based Photo-acoustic Spectroscopy.” Ethylene Signaling : Methods and Protocols. Ed. Brad M Binder & G Eric Schaller. Vol. 1573. New York, NY, USA: Springer, 2017. 11–26. Print.
APA
Van de Poel, B., & Van Der Straeten, D. (2017). Plant ethylene detection using laser-based photo-acoustic spectroscopy. In B. M. Binder & G. E. Schaller (Eds.), Ethylene signaling : methods and protocols (Vol. 1573, pp. 11–26). New York, NY, USA: Springer.
Chicago author-date
Van de Poel, Bram, and Dominique Van Der Straeten. 2017. “Plant Ethylene Detection Using Laser-based Photo-acoustic Spectroscopy.” In Ethylene Signaling : Methods and Protocols, ed. Brad M Binder and G Eric Schaller, 1573:11–26. New York, NY, USA: Springer.
Chicago author-date (all authors)
Van de Poel, Bram, and Dominique Van Der Straeten. 2017. “Plant Ethylene Detection Using Laser-based Photo-acoustic Spectroscopy.” In Ethylene Signaling : Methods and Protocols, ed. Brad M Binder and G Eric Schaller, 1573:11–26. New York, NY, USA: Springer.
Vancouver
1.
Van de Poel B, Van Der Straeten D. Plant ethylene detection using laser-based photo-acoustic spectroscopy. In: Binder BM, Schaller GE, editors. Ethylene signaling : methods and protocols. New York, NY, USA: Springer; 2017. p. 11–26.
IEEE
[1]
B. Van de Poel and D. Van Der Straeten, “Plant ethylene detection using laser-based photo-acoustic spectroscopy,” in Ethylene signaling : methods and protocols, vol. 1573, B. M. Binder and G. E. Schaller, Eds. New York, NY, USA: Springer, 2017, pp. 11–26.
@incollection{8531135,
  abstract     = {Analytical detection of the plant hormone ethylene is an important prerequisite in physiological studies. Real-time and super sensitive detection of trace amounts of ethylene gas is possible using laser-based photo-acoustic spectroscopy. This Chapter will provide some background on the technique, compare it with conventional gas chromatography, and provide a detailed user-friendly hand-out on how to operate the machine and the software. In addition, this Chapter provides some tips and tricks for designing and performing physiological experiments suited for ethylene detection with laser-based photo-acoustic spectroscopy.},
  author       = {Van de Poel, Bram and Van Der Straeten, Dominique},
  booktitle    = {Ethylene signaling : methods and protocols},
  editor       = {Binder, Brad M and Schaller, G Eric},
  isbn         = {9781493968527},
  issn         = {1064-3745},
  keywords     = {ETD-300,Ethylene,Laser-based photo-acoustic spectroscopy,Real-time measurements},
  language     = {eng},
  pages        = {11--26},
  publisher    = {Springer},
  series       = {Methods in Molecular Biology},
  title        = {Plant ethylene detection using laser-based photo-acoustic spectroscopy},
  url          = {http://dx.doi.org/10.1007/978-1-4939-6854-1_2},
  volume       = {1573},
  year         = {2017},
}

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