Débora Tomazi Pereira, Nathalie Korbee, Julia Vega, Félix L. Figueroa
{"title":"推进线形卟啉(红藻纲,Bangiales)的培养:低成本人工海水、硝酸盐供应、光合作用活性和能量消耗","authors":"Débora Tomazi Pereira, Nathalie Korbee, Julia Vega, Félix L. Figueroa","doi":"10.1007/s10811-024-03320-z","DOIUrl":null,"url":null,"abstract":"<p>Fertilizer use in agriculture and aquaculture significantly contributes to nitrate-rich effluent discharge into aquatic environments. <i>Porphyra</i>'s high surface area/volume enables efficient nutrient assimilation. This study aimed to identify a cost-effective, efficient artificial seawater medium for <i>Porphyra linearis</i> cultivation and determine the optimal nitrate concentration to enhance photosynthetic activity. <i>Porphyra linearis</i> was grown in three different salt media, with photosynthetic and biochemical parameters assessed, showing no differences. The nitrate experiment (7 days) using low-cost salt and varied concentration (0 to 6.5 mM) revealed optimal nitrate uptake at 3 and 5 mM, while 6.5 mM indicated saturation/toxicity. The phycobiliproteins contents did not increase compared to the 0 mM, but exhibited greater functionality, as evidenced by the enhanced photosynthetic parameters. Chlorophyll <i>a</i> peaked in 3 mM, whereas lutein and β-carotene peaked in 0 and 3 mM. The thalli turned greenish and appeared to have degraded branches under 0 mM. Growth rate was the same under all nitrate concentration and higher than under 0 mM. The presence of nitrate increased ETR<sub>in situ</sub> and ETR<sub>max,</sub> whereas the absence decreased the range between optimal irradiance for photoinhibition (Eopt<sub>ETR</sub>) and saturated irradiance for photosynthesis (Ek<sub>ETR</sub>) and between saturated irradiance for non-photochemical quenching (Ek<sub>NPQ</sub>) and Ek<sub>ETR</sub>, suggesting that under more nitrate available the algae dissipate less energy. <i>P. linearis</i> showed a wide range of nitrate use without variation in pigment composition in contrast to photosynthetic capacity. The 1.5 and 3 mM in cultivation significantly enhance the photosynthetic response of <i>P. linearis</i>, supporting their potential application in IMTA and bioremediation.</p>","PeriodicalId":15086,"journal":{"name":"Journal of Applied Phycology","volume":null,"pages":null},"PeriodicalIF":2.8000,"publicationDate":"2024-08-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Advancing Porphyra linearis (Rhodophyta, Bangiales) culture: low cost artificial seawater, nitrate supply, photosynthetic activity and energy dissipation\",\"authors\":\"Débora Tomazi Pereira, Nathalie Korbee, Julia Vega, Félix L. Figueroa\",\"doi\":\"10.1007/s10811-024-03320-z\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Fertilizer use in agriculture and aquaculture significantly contributes to nitrate-rich effluent discharge into aquatic environments. <i>Porphyra</i>'s high surface area/volume enables efficient nutrient assimilation. This study aimed to identify a cost-effective, efficient artificial seawater medium for <i>Porphyra linearis</i> cultivation and determine the optimal nitrate concentration to enhance photosynthetic activity. <i>Porphyra linearis</i> was grown in three different salt media, with photosynthetic and biochemical parameters assessed, showing no differences. The nitrate experiment (7 days) using low-cost salt and varied concentration (0 to 6.5 mM) revealed optimal nitrate uptake at 3 and 5 mM, while 6.5 mM indicated saturation/toxicity. The phycobiliproteins contents did not increase compared to the 0 mM, but exhibited greater functionality, as evidenced by the enhanced photosynthetic parameters. Chlorophyll <i>a</i> peaked in 3 mM, whereas lutein and β-carotene peaked in 0 and 3 mM. The thalli turned greenish and appeared to have degraded branches under 0 mM. Growth rate was the same under all nitrate concentration and higher than under 0 mM. The presence of nitrate increased ETR<sub>in situ</sub> and ETR<sub>max,</sub> whereas the absence decreased the range between optimal irradiance for photoinhibition (Eopt<sub>ETR</sub>) and saturated irradiance for photosynthesis (Ek<sub>ETR</sub>) and between saturated irradiance for non-photochemical quenching (Ek<sub>NPQ</sub>) and Ek<sub>ETR</sub>, suggesting that under more nitrate available the algae dissipate less energy. <i>P. linearis</i> showed a wide range of nitrate use without variation in pigment composition in contrast to photosynthetic capacity. 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Advancing Porphyra linearis (Rhodophyta, Bangiales) culture: low cost artificial seawater, nitrate supply, photosynthetic activity and energy dissipation
Fertilizer use in agriculture and aquaculture significantly contributes to nitrate-rich effluent discharge into aquatic environments. Porphyra's high surface area/volume enables efficient nutrient assimilation. This study aimed to identify a cost-effective, efficient artificial seawater medium for Porphyra linearis cultivation and determine the optimal nitrate concentration to enhance photosynthetic activity. Porphyra linearis was grown in three different salt media, with photosynthetic and biochemical parameters assessed, showing no differences. The nitrate experiment (7 days) using low-cost salt and varied concentration (0 to 6.5 mM) revealed optimal nitrate uptake at 3 and 5 mM, while 6.5 mM indicated saturation/toxicity. The phycobiliproteins contents did not increase compared to the 0 mM, but exhibited greater functionality, as evidenced by the enhanced photosynthetic parameters. Chlorophyll a peaked in 3 mM, whereas lutein and β-carotene peaked in 0 and 3 mM. The thalli turned greenish and appeared to have degraded branches under 0 mM. Growth rate was the same under all nitrate concentration and higher than under 0 mM. The presence of nitrate increased ETRin situ and ETRmax, whereas the absence decreased the range between optimal irradiance for photoinhibition (EoptETR) and saturated irradiance for photosynthesis (EkETR) and between saturated irradiance for non-photochemical quenching (EkNPQ) and EkETR, suggesting that under more nitrate available the algae dissipate less energy. P. linearis showed a wide range of nitrate use without variation in pigment composition in contrast to photosynthetic capacity. The 1.5 and 3 mM in cultivation significantly enhance the photosynthetic response of P. linearis, supporting their potential application in IMTA and bioremediation.
期刊介绍:
The Journal of Applied Phycology publishes work on the rapidly expanding subject of the commercial use of algae.
The journal accepts submissions on fundamental research, development of techniques and practical applications in such areas as algal and cyanobacterial biotechnology and genetic engineering, tissues culture, culture collections, commercially useful micro-algae and their products, mariculture, algalization and soil fertility, pollution and fouling, monitoring, toxicity tests, toxic compounds, antibiotics and other biologically active compounds.
Each issue of the Journal of Applied Phycology also includes a short section for brief notes and general information on new products, patents and company news.