User:Mabelz97/sandbox

Original - "Heterocyst"

The mechanism of controlling heterocysts is thought to involve the diffusion of an inhibitor of differentiation called patS. Heterocyst formation is inhibited in the presence of a fixed nitrogen source, such as ammonium or nitrate. Heterocyst maintenance is dependent on an enzyme called hetN. The bacteria may also enter a symbiotic relationship with certain plants. In such a relationship, the bacteria do not respond to the availability of nitrogen, but to signals produced by the plant. Up to 60% of the cells can become heterocysts, providing fixed nitrogen to the plant in return for fixed carbon^[1].

Edits - "Heterocyst"

Symbiotic Relationships

Anabaena-Azolla

A notable symbiotic relationship is that of Anabaena cyanobacteria with Azolla plants. Anabaena reside on the stems and within leaves of Azolla plants^[2]. The Azolla plant undergoes photosynthesis and provides fixed carbon for the Anabaena to use as an energy source for dinitrogenases in the heterocyst cells.^[2]. In return, the heterocysts are able to provide the vegetative cells and the Azolla plant with fixed nitrogen in the form of ammonia which supports growth of both organisms^[2]^[3].

This symbiotic relationship is exploited by humans in agriculture. In Asia, Azolla plants containing Anabaena species are used as biofertilizer where nitrogen is limiting^[2] as well as in animal feed^[3]. Different strains of Azolla-Anabaena are suited for different environments and may lead to differences in crop production^[4]. Rice crops grown with Azolla-Anabaena as biofertilizer have been shown to result in a much greater quantity and quality of produce compared to crops without the cyanobacteria^[3]^[5]. Azolla-Anabaena plants are grown before and after rice crops are planted^[3]. As the Azolla-Anabaena plants grow, they accumulate fixed nitrogen due to the actions of the nitrogenase enzymes and organic carbon from photosynthesis by the Azolla plants and Anabaena vegetative cells^[3]. When the Azolla-Anabaena plants die and decompose, they release high amounts of fixed nitrogen, phosphorus, organic carbon, and many other nutrients into the soil, providing a rich environment ideal for the growth of rice crops^[3].

The Anabaena-Azolla relationship has also been explored as a possible method of removing pollutants from the environment, a process known as phytoremediation^[6]. Anabaena sp. together with Azolla caroliniana has been shown to be successful in removing uranium, a toxic pollutant caused by mining, as well as the heavy metals mercury (II), chromium(III), and chromium(VI) from contaminated waste water^[6]^[7].

References

Mabelz97 (talk) 07:58, 20 November 2017 (UTC)

^ Lee, Robert Edward (1999). Phycology (3rd ed ed.). Cambridge, UK ; New York: Cambridge University Press. ISBN 0521630908. {{cite book}}: |edition= has extra text (help)
^ ^a ^b ^c ^d van Hove, C.; Lejeune, A. (2002). "The Azolla: Anabaena Symbiosis". Biology and Environment: Proceedings of the Royal Irish Academy. 102B (1): 23–26. doi:10.2307/20500136.
^ ^a ^b ^c ^d ^e ^f Vaishampayan, A.; Sinha, R. P.; Häder, D.-P.; Dey, T.; Gupta, A. K.; Bhan, U.; Rao, A. L. (2001). "Cyanobacterial Biofertilizers in Rice Agriculture". Botanical Review. 67 (4): 453–516. doi:10.2307/4354403.
^ Bocchi, Stefano; Malgioglio, Antonino (2010). "Azolla-Anabaenaas a Biofertilizer for Rice Paddy Fields in the Po Valley, a Temperate Rice Area in Northern Italy". International Journal of Agronomy. 2010: 1–5. doi:10.1155/2010/152158. ISSN 1687-8159.{{cite journal}}: CS1 maint: unflagged free DOI (link)
^ Singh, S.; Prasad, R.; Singh, B. V.; Goyal, S. K.; Sharma, S. N. (1990-06-01). "Effect of green manuring, blue-green algae and neem-cake-coated urea on wetland rice (Oryza sativa L.)". Biology and Fertility of Soils. 9 (3): 235–238. doi:10.1007/bf00336232. ISSN 0178-2762.
^ ^a ^b Bennicelli, R.; Stępniewska, Z.; Banach, A.; Szajnocha, K.; Ostrowski, J. (2004-04-01). "The ability of Azolla caroliniana to remove heavy metals (Hg(II), Cr(III), Cr(VI)) from municipal waste water". Chemosphere. 55 (1): 141–146. doi:10.1016/j.chemosphere.2003.11.015.
^ Pan, Changchun; Hu, Nan; Ding, Dexin; Hu, Jinsong; Li, Guangyue; Wang, Yongdong (2016-01-01). "An experimental study on the synergistic effects between Azolla and Anabaena in removal of uranium from solutions by Azolla–anabaena symbiotic system". Journal of Radioanalytical and Nuclear Chemistry. 307 (1): 385–394. doi:10.1007/s10967-015-4161-y. ISSN 0236-5731.

[1] Lee, Robert Edward (1999). Phycology (3rd ed ed.). Cambridge, UK ; New York: Cambridge University Press. ISBN 0521630908. {{cite book}}: |edition= has extra text (help)

[:0-2] van Hove, C.; Lejeune, A. (2002). "The Azolla: Anabaena Symbiosis". Biology and Environment: Proceedings of the Royal Irish Academy. 102B (1): 23–26. doi:10.2307/20500136.

[:1-3] ^ ^a ^b ^c ^d ^e ^f Vaishampayan, A.; Sinha, R. P.; Häder, D.-P.; Dey, T.; Gupta, A. K.; Bhan, U.; Rao, A. L. (2001). "Cyanobacterial Biofertilizers in Rice Agriculture". Botanical Review. 67 (4): 453–516. doi:10.2307/4354403.

[4] Bocchi, Stefano; Malgioglio, Antonino (2010). "Azolla-Anabaenaas a Biofertilizer for Rice Paddy Fields in the Po Valley, a Temperate Rice Area in Northern Italy". International Journal of Agronomy. 2010: 1–5. doi:10.1155/2010/152158. ISSN 1687-8159.{{cite journal}}: CS1 maint: unflagged free DOI (link)

[5] Singh, S.; Prasad, R.; Singh, B. V.; Goyal, S. K.; Sharma, S. N. (1990-06-01). "Effect of green manuring, blue-green algae and neem-cake-coated urea on wetland rice (Oryza sativa L.)". Biology and Fertility of Soils. 9 (3): 235–238. doi:10.1007/bf00336232. ISSN 0178-2762.

[:2-6] Bennicelli, R.; Stępniewska, Z.; Banach, A.; Szajnocha, K.; Ostrowski, J. (2004-04-01). "The ability of Azolla caroliniana to remove heavy metals (Hg(II), Cr(III), Cr(VI)) from municipal waste water". Chemosphere. 55 (1): 141–146. doi:10.1016/j.chemosphere.2003.11.015.

[7] Pan, Changchun; Hu, Nan; Ding, Dexin; Hu, Jinsong; Li, Guangyue; Wang, Yongdong (2016-01-01). "An experimental study on the synergistic effects between Azolla and Anabaena in removal of uranium from solutions by Azolla–anabaena symbiotic system". Journal of Radioanalytical and Nuclear Chemistry. 307 (1): 385–394. doi:10.1007/s10967-015-4161-y. ISSN 0236-5731.

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