Effect of tissue nitrogen and phosphorus quota on growth of Porphyra yezoensis blades in suspension cultures

The effect of tissue N and P on growth of Porphyra yezoensis (strain U-51) blades in suspension cultures was investigated. Blades had the ability to store N in excess of requirements. The critical (0.40% fresh wt) and subsistence (0.153% fresh wt) levels of N were constant regardless of N source (NO...

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Veröffentlicht in:	Hydrobiologia 1999-04, Vol.398-399, p.305-314
1. Verfasser:	Hafting, Jeff T
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Sprache:	eng
Schlagworte:	Algae Marine Marine biology Nitrogen Nutrient status Phosphorus Porphyra yezoensis Tissue analysis
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description	The effect of tissue N and P on growth of Porphyra yezoensis (strain U-51) blades in suspension cultures was investigated. Blades had the ability to store N in excess of requirements. The critical (0.40% fresh wt) and subsistence (0.153% fresh wt) levels of N were constant regardless of N source (NO^sub -3^^sup -^ or NH^sub 4^^sup +^) or light level. Blades did not have the ability to store excess P over the range of P loads given. The subsistence quota for P was higher when NH^sub 4^^sup +^ was given, suggesting a decreased ability to utilize tissue P for growth. NO^sub 3^^sup -^ was a better source of N than NH^sub 4^^sup +^ in terms of growth. Blades became bright green in colour when N limited, suggesting a link between phycoerythrin and tissue N. The optimal molar N:P of 13-15 was constant regardless of N source (NO^sub 3^^sup -^ or NH^sub 4^^sup +^) or light level. N:P 13-15 indicated P limitation. P limited and light limited blades could store more N when NH^sub 4^^sup +^ was given, than when NO^sub 3^^sup -^ was the N source, suggesting physiological mechanisms for taking advantage of this usually ephemeral N source, even when growth was limited. N and P reserves were used up relatively quickly (5 days), a characteristic of opportunistic species. Tissue analysis for N and P was a useful technique for determining nutrient status of P. yezoensis blades in land based tanks. As long as tissue N >0.40% fresh wt. and an N:P supply ratio of 13-15 is maintained, blade growth is not limited by N or P.[PUBLICATION ABSTRACT]
doi_str_mv	10.1023/A:1017034104523
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Blades had the ability to store N in excess of requirements. The critical (0.40% fresh wt) and subsistence (0.153% fresh wt) levels of N were constant regardless of N source (NO^sub -3^^sup -^ or NH^sub 4^^sup +^) or light level. Blades did not have the ability to store excess P over the range of P loads given. The subsistence quota for P was higher when NH^sub 4^^sup +^ was given, suggesting a decreased ability to utilize tissue P for growth. NO^sub 3^^sup -^ was a better source of N than NH^sub 4^^sup +^ in terms of growth. Blades became bright green in colour when N limited, suggesting a link between phycoerythrin and tissue N. The optimal molar N:P of 13-15 was constant regardless of N source (NO^sub 3^^sup -^ or NH^sub 4^^sup +^) or light level. N:P <13-15 indicated N limitation, while N:P >13-15 indicated P limitation. P limited and light limited blades could store more N when NH^sub 4^^sup +^ was given, than when NO^sub 3^^sup -^ was the N source, suggesting physiological mechanisms for taking advantage of this usually ephemeral N source, even when growth was limited. N and P reserves were used up relatively quickly (5 days), a characteristic of opportunistic species. Tissue analysis for N and P was a useful technique for determining nutrient status of P. yezoensis blades in land based tanks. As long as tissue N >0.40% fresh wt. and an N:P supply ratio of 13-15 is maintained, blade growth is not limited by N or P.[PUBLICATION ABSTRACT]</description><identifier>ISSN: 0018-8158</identifier><identifier>EISSN: 1573-5117</identifier><identifier>DOI: 10.1023/A:1017034104523</identifier><language>eng</language><publisher>Dordrecht: Springer Nature B.V</publisher><subject>Algae ; Marine ; Marine biology ; Nitrogen ; Nutrient status ; Phosphorus ; Porphyra yezoensis ; Tissue analysis</subject><ispartof>Hydrobiologia, 1999-04, Vol.398-399, p.305-314</ispartof><rights>Kluwer Academic Publishers 1999</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c255t-ddfc25fd2493ca7ab922b64105fccd19b5cb2096fc1b9b46f71220d111d5ae953</citedby></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids></links><search><creatorcontrib>Hafting, Jeff T</creatorcontrib><title>Effect of tissue nitrogen and phosphorus quota on growth of Porphyra yezoensis blades in suspension cultures</title><title>Hydrobiologia</title><description>The effect of tissue N and P on growth of Porphyra yezoensis (strain U-51) blades in suspension cultures was investigated. Blades had the ability to store N in excess of requirements. The critical (0.40% fresh wt) and subsistence (0.153% fresh wt) levels of N were constant regardless of N source (NO^sub -3^^sup -^ or NH^sub 4^^sup +^) or light level. Blades did not have the ability to store excess P over the range of P loads given. The subsistence quota for P was higher when NH^sub 4^^sup +^ was given, suggesting a decreased ability to utilize tissue P for growth. NO^sub 3^^sup -^ was a better source of N than NH^sub 4^^sup +^ in terms of growth. Blades became bright green in colour when N limited, suggesting a link between phycoerythrin and tissue N. The optimal molar N:P of 13-15 was constant regardless of N source (NO^sub 3^^sup -^ or NH^sub 4^^sup +^) or light level. N:P <13-15 indicated N limitation, while N:P >13-15 indicated P limitation. P limited and light limited blades could store more N when NH^sub 4^^sup +^ was given, than when NO^sub 3^^sup -^ was the N source, suggesting physiological mechanisms for taking advantage of this usually ephemeral N source, even when growth was limited. N and P reserves were used up relatively quickly (5 days), a characteristic of opportunistic species. Tissue analysis for N and P was a useful technique for determining nutrient status of P. yezoensis blades in land based tanks. 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Blades had the ability to store N in excess of requirements. The critical (0.40% fresh wt) and subsistence (0.153% fresh wt) levels of N were constant regardless of N source (NO^sub -3^^sup -^ or NH^sub 4^^sup +^) or light level. Blades did not have the ability to store excess P over the range of P loads given. The subsistence quota for P was higher when NH^sub 4^^sup +^ was given, suggesting a decreased ability to utilize tissue P for growth. NO^sub 3^^sup -^ was a better source of N than NH^sub 4^^sup +^ in terms of growth. Blades became bright green in colour when N limited, suggesting a link between phycoerythrin and tissue N. The optimal molar N:P of 13-15 was constant regardless of N source (NO^sub 3^^sup -^ or NH^sub 4^^sup +^) or light level. N:P <13-15 indicated N limitation, while N:P >13-15 indicated P limitation. P limited and light limited blades could store more N when NH^sub 4^^sup +^ was given, than when NO^sub 3^^sup -^ was the N source, suggesting physiological mechanisms for taking advantage of this usually ephemeral N source, even when growth was limited. N and P reserves were used up relatively quickly (5 days), a characteristic of opportunistic species. Tissue analysis for N and P was a useful technique for determining nutrient status of P. yezoensis blades in land based tanks. As long as tissue N >0.40% fresh wt. and an N:P supply ratio of 13-15 is maintained, blade growth is not limited by N or P.[PUBLICATION ABSTRACT]</abstract><cop>Dordrecht</cop><pub>Springer Nature B.V</pub><doi>10.1023/A:1017034104523</doi><tpages>10</tpages></addata></record>
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subjects	Algae Marine Marine biology Nitrogen Nutrient status Phosphorus Porphyra yezoensis Tissue analysis
title	Effect of tissue nitrogen and phosphorus quota on growth of Porphyra yezoensis blades in suspension cultures
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