Correction to: Summer dynamics drive the microbial response to carbon and nutrient additions in a high-altitude lake

IF 3.8 1区地球科学 Q1 LIMNOLOGY

Limnology and Oceanography Pub Date : 2025-03-28 DOI:10.1002/lno.12472

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Abstract

Dory, F., L. Cavalli, E. Franquet, M. Claeys-Bruno, B. Misson, T. Tatoni, and C. Bertrand. 2022. Summer dynamics drive the microbial response to carbon and nutrient additions in a high-altitude lake. Limnol. Oceanogr. 67: 1142–1156. https://doi.org/10.1002/lno.12062

The captions for Supporting Information Figs. S1–S5 were mistakenly assigned to Figs. 1–5 in the main document. They have been replaced with the correct captions.

Fig. 1. Experimental design performed in early summer and in late summer, with four carbon additions (0, 2, 4, 6 mg C L⁻¹), two nutrient concentrations (0NP and +N+P), two light treatments (light and dark), and two temperatures (10°C and 18°C), in three replicates.

Fig. 2. DOC change in the microcosms between initial conditions and end of experiments, in early summer and late summer. Concentrations are shown for each glucose addition (white for control; gray for glucose additions), without nutrients and with nutrients (+N+P). The boxplots show the median, the interquartile range and the tails of the distribution, including the two temperatures and light conditions. Regression lines show the glucose addition effect in each campaign and nutrient enrichment.

Fig. 3. Heterotrophic prokaryotic plankton (HPP) biomass per experimental day, in early summer and late summer. Dynamics are supposed to be linear between the day 0 and the day 6. Biomass is shown for each glucose addition, without nutrients and with nutrients (+N+P). Points represent the HPP biomass in all conditions of temperature and light, and regression lines show the glucose addition effect in each campaign and nutrient enrichment.

Fig. 4. Phytoplankton groups' relative biomass and total absolute biomass (black points) at the end of experiments, in early summer and late summer. Biomass is shown for each glucose and nutrient treatments under the four temperature × light conditions.

Fig. 5. Scheme of the phytoplankton regulation of bacterial response to glucose addition in early summer and late summer. Black lines represent processes that are reinforced (heavy line) or weakened (light line). Dashed lines represent variables or processes not measured. GLU = glucose; DOC = dissolved organic carbon; CL = ciliates; MX = mixotrophs; AT = autotrophs; HPP_BioM = Heterotrophic prokaryotic plankton biomass; Phyto_BioM = phytoplankton biomass; DOC_PHYTO = phytoplankton-derived DOC.

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更正：夏季动态驱动高海拔湖泊中微生物对碳和营养物质添加的反应

Dory， F.， L. Cavalli， E. Franquet， M. Claeys-Bruno， B. Misson， T. Tatoni和C. Bertrand. 2022。夏季动态驱动微生物对高海拔湖泊碳和营养物质添加的反应。Limnol。海洋科学进展，26(6):1158 - 1158。https://doi.org/10.1002/lno.12062The辅助信息图。S1-S5被错误地分配到主文档的图1-5中。它们已被替换为正确的标题。1. 实验设计在初夏和夏末进行，在三个重复中添加四种碳（0、2、4和6 mg C L−1），两种营养浓度（0 np和+N+P），两种光处理（光和暗），两种温度（10°C和18°C）。2. 初夏和夏末初始条件与实验结束时微观环境DOC的变化。每种葡萄糖添加物的浓度(白色为对照；灰色表示葡萄糖添加)，无营养和有营养（+N+P）。箱形图显示了分布的中位数、四分位数范围和尾部，包括两种温度和光照条件。回归线显示了每个运动中的葡萄糖添加效果和营养富集。3. 初夏和夏末实验日异养原核浮游生物生物量。从第0天到第6天的动态应该是线性的。生物量显示了每次葡萄糖添加，无营养物和营养物（+N+P）。点表示所有温度和光照条件下的HPP生物量，回归线表示每个运动中的葡萄糖添加效果和营养富集。4. 实验结束时、初夏和夏末浮游植物类群的相对生物量和总绝对生物量（黑点）。图中显示了四种温度×光照条件下葡萄糖和营养处理的生物量。5. 初夏和夏末浮游植物调控细菌对葡萄糖添加反应的方案。黑线表示强化（粗线）或弱化（细线）的过程。虚线表示未测量的变量或过程。GLU =葡萄糖；DOC =溶解有机碳；CL =纤毛虫；MX =混合型营养物；AT =自养生物；异养原核浮游生物生物量；PhytoBioM =浮游植物生物量；DOCPHYTO =浮游植物衍生的DOC。

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来源期刊

Limnology and Oceanography 地学-海洋学

CiteScore

8.80

自引率

6.70%

发文量

254

审稿时长

3 months

期刊介绍： Limnology and Oceanography (L&O; print ISSN 0024-3590, online ISSN 1939-5590) publishes original articles, including scholarly reviews, about all aspects of limnology and oceanography. The journal''s unifying theme is the understanding of aquatic systems. Submissions are judged on the originality of their data, interpretations, and ideas, and on the degree to which they can be generalized beyond the particular aquatic system examined. Laboratory and modeling studies must demonstrate relevance to field environments; typically this means that they are bolstered by substantial "real-world" data. Few purely theoretical or purely empirical papers are accepted for review.