[FIGURE 1 OMITTED][FIGURE 2 OMITTED]Both N- and P-limited O. marina ex terjemahan - [FIGURE 1 OMITTED][FIGURE 2 OMITTED]Both N- and P-limited O. marina ex Bahasa Indonesia Bagaimana mengatakan

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Both N- and P-limited O. marina exhibited similar trends for carbon (repeated measures ANOVA, [F.sub.1.6] = 8.13, p = 0.23) on a per-cell basis, stable during the first 4 h at 77 pmolC [Oxyrrhis.sub.-1], the carbon cell content then decreased until 78 h to reach values of around 32 pmolC [Oxyrrhis.sup.-1] (Fig. 2d). The nitrogen content of P-limited cells (Fig. 2e) dropped from 11 and stabilized at 5.9 pmolN [Oxyrrhis.sup.-1] at 24 h. The nitrogen content of N-limited cells (Fig. 2e) remained stable during the first 2 h at 8.5 pmolN [Oxyrrhis.sup.-1], decreased to 5.9 pmolN [Oxyrrhis.sup.-1] at 12 h and remained stable until the end. The phosphorus content of both N- and P-limited O. marina (Fig. 2f) reacted in a similar way as the nitrogen content with initial contents of 0.39 and 0.23 pmolP [Oxyrrhis.sup.-1] for N- and P-limited O. marina, respectively, and final concentrations of 0.29 and 0.08 pmolP [Oxyrrhis.sup.-1].

The stoichiometry of both N- and P-limited O. marina followed similar trends during the starvation process (Fig. 2). C:N (Fig. 2g) and C:P (Fig. 2h) remained stable for at least 5 h at values around 9 and 250 for N-limited cells and 7.2 and 425, respectively, for P-limited ones. This stationary phase was followed by a decrease until nutrient ratios stabilized between 12 and 24 h at values around 6.5 for C:N of both O. marina preconditions and C:P values of 340 for P-limited cells and 150 for N-limited ones. The N:P of P-limited O. marina decreased in the first 12 h (Fig. 2i) due to a decrease in the N content (Fig. 2b) and increased afterwards due to decrease in the P content (Fig. 2c). Both O. marina preconditions were always significantly different in terms of C:N (repeated measures ANOVA, [F.sub.1,6] = 1631.6, p < 0.001), C:P (repeated measures ANOVA, F16 = 988.77, p < 0.001) and N:P (repeated measures ANOVA, [F.sub.1,6] = 1758.2, p < 0.001), and these nutrient ratios varied significantly over time (repeated measures ANOVA, for C:N, [F.sub.8,48] = 130.88, p < 0.001; for C:P, [F.sub.6,36] = 90.95, p < 0.001; for N:P, [F.sub.6,36] = 16.41, p < 0.001).

We observed that the initial lipid concentration was higher in high-P O. marina and that [Oxy.sub.N]P total lipid concentration decreased (repeated measures ANOVA, Tukey's HSD test, FG = 11.69, p = 0.02) during starvation (Fig. 3), while it remained stable for P-limited O. marina (repeated measures ANOVA, Tukey's HSD test, FG = 11.69, p = 0.42), indicating that organisms of different nutrient status may use different energy sources when starved, as the high N-organisms mainly lost nitrogen.
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[FIGURE 1 OMITTED][FIGURE 2 OMITTED]Both N- and P-limited O. marina exhibited similar trends for carbon (repeated measures ANOVA, [F.sub.1.6] = 8.13, p = 0.23) on a per-cell basis, stable during the first 4 h at 77 pmolC [Oxyrrhis.sub.-1], the carbon cell content then decreased until 78 h to reach values of around 32 pmolC [Oxyrrhis.sup.-1] (Fig. 2d). The nitrogen content of P-limited cells (Fig. 2e) dropped from 11 and stabilized at 5.9 pmolN [Oxyrrhis.sup.-1] at 24 h. The nitrogen content of N-limited cells (Fig. 2e) remained stable during the first 2 h at 8.5 pmolN [Oxyrrhis.sup.-1], decreased to 5.9 pmolN [Oxyrrhis.sup.-1] at 12 h and remained stable until the end. The phosphorus content of both N- and P-limited O. marina (Fig. 2f) reacted in a similar way as the nitrogen content with initial contents of 0.39 and 0.23 pmolP [Oxyrrhis.sup.-1] for N- and P-limited O. marina, respectively, and final concentrations of 0.29 and 0.08 pmolP [Oxyrrhis.sup.-1].The stoichiometry of both N- and P-limited O. marina followed similar trends during the starvation process (Fig. 2). C:N (Fig. 2g) and C:P (Fig. 2h) remained stable for at least 5 h at values around 9 and 250 for N-limited cells and 7.2 and 425, respectively, for P-limited ones. This stationary phase was followed by a decrease until nutrient ratios stabilized between 12 and 24 h at values around 6.5 for C:N of both O. marina preconditions and C:P values of 340 for P-limited cells and 150 for N-limited ones. The N:P of P-limited O. marina decreased in the first 12 h (Fig. 2i) due to a decrease in the N content (Fig. 2b) and increased afterwards due to decrease in the P content (Fig. 2c). Both O. marina preconditions were always significantly different in terms of C:N (repeated measures ANOVA, [F.sub.1,6] = 1631.6, p < 0.001), C:P (repeated measures ANOVA, F16 = 988.77, p < 0.001) and N:P (repeated measures ANOVA, [F.sub.1,6] = 1758.2, p < 0.001), and these nutrient ratios varied significantly over time (repeated measures ANOVA, for C:N, [F.sub.8,48] = 130.88, p < 0.001; for C:P, [F.sub.6,36] = 90.95, p < 0.001; for N:P, [F.sub.6,36] = 16.41, p < 0.001).Kami mengamati bahwa konsentrasi lipid awal adalah lebih tinggi dalam tinggi-P O. marina dan [menurun konsentrasi total lipid Oxy.sub.N]P (mengulangi langkah-langkah ANOVA, Tukey's HSD tes, FG = 11,69, p = 0,02) selama kelaparan (Fig. 3), sementara itu tetap stabil untuk P-terbatas O. marina (mengulangi langkah-langkah ANOVA, Tukey's HSD tes, FG = 11,69, p = 0,42), menunjukkan bahwa organisme status gizi yang berbeda dapat menggunakan sumber-sumber energi yang berbeda ketika kelaparan , seperti tinggi N-organisme terutama kehilangan nitrogen.
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Kedua N dan P-terbatas O. marina menunjukkan kecenderungan yang sama untuk karbon (tindakan berulang ANOVA, [F.sub.1.6] = 8.13, p = 0,23) pada basis per-sel , stabil selama 4 jam pertama pada 77 pmolC [Oxyrrhis.sub.-1], isi sel karbon kemudian menurun sampai 78 h untuk mencapai nilai sekitar 32 pmolC [Oxyrrhis.sup.-1] (Gambar. 2d). Kandungan nitrogen sel P-terbatas (Gambar. 2e) turun dari 11 dan stabil pada 5,9 pmolN [Oxyrrhis.sup.-1] pada 24 jam. Kandungan nitrogen sel N-terbatas (Gambar. 2e) tetap stabil selama 2 jam pertama sebesar 8,5 pmolN [Oxyrrhis.sup.-1], menurun menjadi 5,9 pmolN [Oxyrrhis.sup.-1] pada 12 jam dan tetap stabil sampai akhir. Kandungan fosfor dari kedua N dan P-terbatas O. marina (Gambar. 2f) bereaksi dalam cara yang sama seperti kandungan nitrogen dengan isi awal 0,39 dan 0,23 pmolP [Oxyrrhis.sup.-1] untuk N- dan P- terbatas O. marina, masing-masing, dan konsentrasi akhir 0,29 dan 0,08 pmolP [Oxyrrhis.sup.-1].

The stoikiometri baik N dan P-terbatas O. marina mengikuti tren yang sama selama proses kelaparan (Gbr. 2). C: N (Gambar 2g.) Dan C: P (. Gambar 2h) tetap stabil selama minimal 5 jam pada nilai-nilai sekitar 9 dan 250 untuk sel N-terbatas dan 7,2 dan 425, masing-masing, untuk yang P-terbatas. Fase stasioner ini diikuti oleh penurunan sampai rasio nutrisi stabil antara 12 dan 24 jam pada nilai sekitar 6,5 untuk C: N dari kedua prasyarat marina O. dan C: nilai-nilai P dari 340 sel P-terbatas dan 150 untuk yang N-terbatas . N: P P-terbatas O. marina menurun di pertama 12 h (. Gambar 2i) karena penurunan kadar N (. Gambar 2b) dan peningkatan setelah karena penurunan kadar P (. Gambar 2c) . Kedua O. marina prasyarat yang selalu berbeda dalam hal C: N (tindakan berulang ANOVA, [F.sub.1,6] = 1631,6, p <0,001), C: P (diulang tindakan ANOVA, F16 = 988,77, p <0,001) dan N: P (tindakan berulang ANOVA, [F.sub.1,6] = 1758,2, p <0,001), dan ini rasio nutrisi bervariasi secara signifikan dari waktu ke waktu (tindakan berulang ANOVA, untuk C: N, [F. sub.8,48] = 130,88, p <0,001; C: P, [F.sub.6,36] = 90,95, p <0,001; untuk N: P, [F.sub.6,36] = 16,41 , p <0,001).

Kami mengamati bahwa konsentrasi lipid awal lebih tinggi pada tinggi-P O. marina dan [Oxy.sub.N] konsentrasi P Total lipid menurun (tindakan berulang ANOVA, uji HSD Tukey, FG = 11,69, p = 0,02) selama kelaparan (Gambar. 3), sementara itu tetap stabil untuk P-terbatas O. marina (tindakan berulang ANOVA, uji Tukey HSD, FG = 11,69, p = 0,42), menunjukkan bahwa organisme status gizi yang berbeda mungkin menggunakan berbagai sumber energi saat kelaparan, sebagai N-organisme yang tinggi terutama hilang nitrogen.
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