Accessory pigments are light-absorbing compounds, found in photosyntheticorganisms, that work in conjunction with chlorophyll a. They include other forms of this pigment, such as chlorophyll b in green algal and vascular ("higher") plantantennae, while other algae may contain chlorophyll c or d. In addition, there are many non-chlorophyll accessory pigments, such as carotenoids or phycobiliproteins, which also absorb light and transfer that light energy to photosystem chlorophyll. Some of these accessory pigments, in particular the carotenoids, also serve to absorb and dissipate excess light energy, or work as antioxidants.[1] The large, physically associated group of chlorophylls and other accessory pigments is sometimes referred to as a pigment bed.[2]
The different chlorophyll and non-chlorophyll pigments associated with the photosystems all have different absorption spectra, either because the spectra of the different chlorophyll pigments are modified by their local protein environment or because the accessory pigments have intrinsic structural differences. The result is that, in vivo, a composite absorption spectrum of all these pigments is broadened and flattened such that a wider range of visible and infrared radiation is absorbed by plants and algae. Most photosynthetic organisms do not absorb green light well, thus most remaining light under leaf canopies in forests or under water with abundant plankton is green, a spectral effect called the "green window". Organisms such as some cyanobacteria and red algae contain accessory phycobiliproteins that absorb green light reaching these habitats.[3]
In aquatic ecosystems, it is likely that the absorption spectrum of water, along with gilvin and tripton (dissolved and particulateorganic matter, respectively), determines phototrophicniche differentiation. The six shoulders in the light absorption of water between wavelengths 400 and 1100 nm correspond to troughs in the collective absorption of at least twenty diverse species of phototrophic bacteria. Another effect is due to the overall trend for water to absorb low frequencies, while gilvin and tripton absorb higher ones. This is why open ocean appears blue and supports yellow species such as Prochlorococcus, which contains divinyl-chlorophyll a and b. Synechococcus, colored red with phycoerythrin, is adapted to coastal bodies, while phycocyanin allows Cyanobacteria to thrive in darker inland waters.[4]
^McElroy, J Scot; Kopsell, Dean (2009). "Physiological role of carotenoids and other antioxidants in plants and application to turfgrass stress management". Zealand Journal of Crop and Horticultural Science. 37 (4): 327–33. doi:10.1080/01140671.2009.9687587.
^Falkowski, Paul; Raven, John (October 31, 2013). "2". Aquatic Photosynthesis (2 ed.). Princeton University Press. p. 80. ISBN978-1400849727. Retrieved June 8, 2018.
^Hanelt, Dieter; Wiencke, Christian; Bischof, Kai (November 30, 2003). "18". In Larkum, Anthony; Douglas, Susan; Raven, John (eds.). Photosynthesis in Algae. Advances in Photosynthesis and Respiration. Vol. 14. Springer Science & Business Media. p. 417. doi:10.1007/978-94-007-1038-2. ISBN978-0792363330. ISSN 1572-0233. S2CID 45648608. Retrieved June 8, 2018.
^ M. Stomp; J. Huisman; L.J. Stal; H.C. Matthijs (August 2007). "Colorful niches of phototrophic microorganisms shaped by vibrations of the water molecule". ISME J. 1 (4): 271–282. doi:10.1038/ismej.2007.59. PMID 18043638.
March 04, 2023
accessory, pigment, light, absorbing, compounds, found, photosynthetic, organisms, that, work, conjunction, with, chlorophyll, they, include, other, forms, this, pigment, such, chlorophyll, green, algal, vascular, higher, plant, antennae, while, other, algae, . Accessory pigments are light absorbing compounds found in photosynthetic organisms that work in conjunction with chlorophyll a They include other forms of this pigment such as chlorophyll b in green algal and vascular higher plant antennae while other algae may contain chlorophyll c or d In addition there are many non chlorophyll accessory pigments such as carotenoids or phycobiliproteins which also absorb light and transfer that light energy to photosystem chlorophyll Some of these accessory pigments in particular the carotenoids also serve to absorb and dissipate excess light energy or work as antioxidants 1 The large physically associated group of chlorophylls and other accessory pigments is sometimes referred to as a pigment bed 2 The different chlorophyll and non chlorophyll pigments associated with the photosystems all have different absorption spectra either because the spectra of the different chlorophyll pigments are modified by their local protein environment or because the accessory pigments have intrinsic structural differences The result is that in vivo a composite absorption spectrum of all these pigments is broadened and flattened such that a wider range of visible and infrared radiation is absorbed by plants and algae Most photosynthetic organisms do not absorb green light well thus most remaining light under leaf canopies in forests or under water with abundant plankton is green a spectral effect called the green window Organisms such as some cyanobacteria and red algae contain accessory phycobiliproteins that absorb green light reaching these habitats 3 In aquatic ecosystems it is likely that the absorption spectrum of water along with gilvin and tripton dissolved and particulate organic matter respectively determines phototrophic niche differentiation The six shoulders in the light absorption of water between wavelengths 400 and 1100 nm correspond to troughs in the collective absorption of at least twenty diverse species of phototrophic bacteria Another effect is due to the overall trend for water to absorb low frequencies while gilvin and tripton absorb higher ones This is why open ocean appears blue and supports yellow species such as Prochlorococcus which contains divinyl chlorophyll a and b Synechococcus colored red with phycoerythrin is adapted to coastal bodies while phycocyanin allows Cyanobacteria to thrive in darker inland waters 4 See also EditAction spectrumReferences Edit McElroy J Scot Kopsell Dean 2009 Physiological role of carotenoids and other antioxidants in plants and application to turfgrass stress management Zealand Journal of Crop and Horticultural Science 37 4 327 33 doi 10 1080 01140671 2009 9687587 Falkowski Paul Raven John October 31 2013 2 Aquatic Photosynthesis 2 ed Princeton University Press p 80 ISBN 978 1400849727 Retrieved June 8 2018 Hanelt Dieter Wiencke Christian Bischof Kai November 30 2003 18 In Larkum Anthony Douglas Susan Raven John eds Photosynthesis in Algae Advances in Photosynthesis and Respiration Vol 14 Springer Science amp Business Media p 417 doi 10 1007 978 94 007 1038 2 ISBN 978 0792363330 ISSN 1572 0233 S2CID 45648608 Retrieved June 8 2018 M Stomp J Huisman L J Stal H C Matthijs August 2007 Colorful niches of phototrophic microorganisms shaped by vibrations of the water molecule ISME J 1 4 271 282 doi 10 1038 ismej 2007 59 PMID 18043638 Retrieved from https en wikipedia org w index php title Accessory pigment amp oldid 1137115309, wikipedia, wiki, book, books, library,
