Horizontal variability and regulation of bacterial production in Lake Biwa, Japan

IF 1.4 4区 环境科学与生态学 Q3 LIMNOLOGY
Tsuchiya, Kenji, Tomioka, Noriko, Komatsu, Kazuhiro, Sano, Tomoharu, Kohzu, Ayato, Imai, Akio, Hayakawa, Kazuhide, Nagata, Takamaru, Okamoto, Takahiro, Ohara, Tomoyuki
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Abstract

To clarify horizontal variability and regulation of bacterial production (BP), we investigated BP and environmental variables along three east–west transects (lines 12, 15, and 17) covering inshore/offshore stations in Lake Biwa, Japan, during four seasons using 15N-labeled deoxyadenosine for measuring BP. In winter, surface BP along Line 12 (southern transect) was higher than Lines 15 and 17 (central and northern transects) and reflected the water-temperature distribution. Additionally, any nutrients and dissolved organic carbon did not correlate to BP, suggesting water temperature primarily regulated BP in winter. In spring, surface BP was higher at eastern inshore stations, near large agricultural fields, and was correlated with nutrient concentrations rather than water temperature, suggesting that the limitation shifted to nutrient availability. In summer, surface BP at offshore stations along Lines 15 and 17 was notably lower than the other stations, and the horizontal heterogeneity became largest (maximum to minimum BP ratio = 9.5, compared to 2.8 ~ 4.1 in the other seasons). The BP was also positively correlated to nutrient concentrations, especially phosphorus. Surface BP in autumn also showed higher values at eastern stations as well as spring and positively correlated to phosphorus concentration. Additionally, there was a negative relationship between BP and water temperature, suggesting that bacterial growth was enhanced by groundwater seepage at the eastern stations. The results suggest that the horizontal distribution is characterized by a north–south distribution with a temperature gradient in winter, and allochthonous nutrient loading determines horizontal BP variations in the other seasons in this lake.

日本琵琶湖细菌生产的水平变异性和调控
为了阐明细菌产量(BP)的水平变异性和调节,我们在四个季节里,沿着三条东西样带(线12、15和17)研究了BP和环境变量,这些样带覆盖了日本琵浪湖的近海/近海站点,使用15n标记的脱氧腺苷测量BP。冬季,12号线(南部样带)的地表BP值高于15号线和17号线(中部样带和北部样带),反映了水温分布。此外,所有营养物和溶解有机碳与BP无关,表明水温主要在冬季调节BP。春季,靠近大型农田的东部近海监测站地表BP较高,且与营养物浓度相关,而与水温无关,表明限制因素转向营养物有效性。夏季15、17号线近海站地表BP显著低于其他站,且水平非均质性最大(最大/最小BP比值为9.5,其他季节为2.8 ~ 4.1)。血压也与营养物浓度呈正相关,尤其是磷浓度。秋季地表BP在东部站和春季均较高,且与磷浓度呈正相关。此外,BP与水温呈负相关,说明东部站点的地下水渗漏促进了细菌的生长。结果表明,水平分布在冬季具有南北分布的温度梯度特征,而其他季节的水平BP变化则由异源营养盐负荷决定。
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来源期刊
Limnology
Limnology 地学-湖沼学
CiteScore
4.30
自引率
6.20%
发文量
15
审稿时长
>12 weeks
期刊介绍: Limnology is a scientific journal published three times a year, in January, April, and August, by Springer in association with the Japanese Society of Limnology. The editors welcome original scientific contributions on physical, chemical, biological, or related research, including environmental issues, on any aspect of basic, theoretical, or applied limnology that present significant findings for the community of scholars. The journal publishes Rapid communications, Research papers, Review articles, Asia/Oceania reports, and Comments. The aims and scope of Limnology are to publish scientific and/or technical papers in limnological sciences, to serve as a platform for information dissemination among scientists and practitioners, to enhance international links, and to contribute to the development of limnology.
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