浒苔降解过程中颗粒有机碳、氮释放及相关微生物种群丰度变化研究  

作　　者：赵苗苗[1,2] 毕蓉 李鸿妹[3] 宋欣荣 黄圣荣 冯秀婷 张海龙 李莉 赵美训[1,5] ZHAO Miaomiao;BI Rong;LI Hongmei;SONG Xinrong;HUANG Shengrong;FENG Xiuting;ZHANG Hailong;LI Li;ZHAO Meixun(Frontiers Science Center for Deep Ocean Multispheres and Earth System,Key Laboratory of Marine Chemistry Theory and Technology,Ministry of Education,Ocean University of China,Qingdao 266100,China;Laboratory for Marine Ecology and Environmental Science,Qingdao Marine Science and Technology Center,Qingdao 266237,China;Key Laboratory of Biofuels,Shandong Provincial Key Laboratory of Energy Genetics,Qingdao Institute of Bioenergy and Bioprocess Technology,Chinese Academy of Sciences,Qingdao 266101,China;Key Laboratory of Marine Chemistry Theory and Technology,Ministry of Education,College of Chemistry and Chemical Engineering,Ocean University of China,Qingdao 266100,China;Laoshan Laboratory,Qingdao 266237,China)

机构地区：[1]中国海洋大学深海圈层与地球系统前沿科学中心、海洋化学理论与工程技术教育部重点实验室,山东青岛266100 [2]青岛海洋科技中心海洋生态与环境科学功能实验室,山东青岛266237 [3]中国科学院青岛生物能源与过程研究所、中国科学院生物燃料重点实验室、山东省能源生物遗传资源重点实验室,山东青岛266101 [4]中国海洋大学化学化工学院海洋化学理论与工程技术教育部重点实验室,山东青岛266100 [5]崂山实验室,山东青岛266237

出　　处：《渔业科学进展》2025年第2期64-75,共12页Progress in Fishery Sciences

基　　金：崂山实验室科技创新项目(LSKJ202204005)资助。

摘　　要：我国黄海海域已连续18年暴发浒苔(Ulva prolifera)绿潮,数百万吨浒苔在绿潮消亡阶段沉降入海并向海水中释放大量有机质。目前,对于量化浒苔降解过程中颗粒有机碳(particulate organic carbon,POC)、颗粒有机氮(particulate organic nitrogen,PON)的释放及其微生物调控机制的相关研究亟待开展。本研究选择浒苔为对象,设置2种降解密度(1 g/L、5 g/L),研究90 d降解过程中的POC和PON浓度、POC︰PON及微生物丰度的变化特征,并探究微生物丰度与POC、PON浓度及其比值的相关关系。结果显示,90 d降解过程中POC浓度[1 g/L与5 g/L处理组峰值分别为(90.17±24.77)和(219.99±45.11)μmol/L]、PON浓度[1 g/L与5 g/L处理组峰值分别为(16.15±0.71)和(23.20±7.16)μmol/L]变化显著。POC、PON浓度随时间变化规律不同:前60 d,POC和PON浓度均先上升后下降;第60~90天,POC浓度持续下降约49%,而PON浓度上升约430%。浒苔降解初期POC︰PON升高,表明此时氮的释放滞后于碳;随后,POC︰PON下降,与微生物对氮的固定以及呼吸作用消耗碳有关。微生物丰度与POC、PON浓度显著相关,表明微生物对浒苔降解过程中POC、PON释放具有重要作用。降解密度对POC、PON浓度有显著影响,5 g/L处理组POC、PON浓度约为1 g/L处理组的2~3倍,且5 g/L处理组达到峰值所需时间较长。本研究厘清了浒苔降解过程中POC、PON的释放特征,明确了微生物丰度变化与POC、PON含量及二者比值变化的关系,为深入探究浒苔降解过程中微生物对POC、PON释放的调控机制以及POC、PON降解机制提供了研究基础。Green tides,dominated by Ulva prolifera,have occurred each summer in the Yellow Sea of China from 2007 to 2023 and are characterized by a huge biomass,long duration,and extensive influence areas.During the post-bloom period,millions of tons of U.prolifera settle to the sea floor and release carbon,nitrogen,and phosphorus into the surrounding waters,notably impacting coastal environments.Organic matter released from macroalgae are important contributors to biogeochemical cycles in marine ecosystems.Particulate organic carbon(POC)is an important fraction of the marine organic carbon pool and is crucial in the marine carbon cycle by regulating dissolved organic carbon(DOC);sediment organic carbon;and inorganic carbon via deposition,degradation,and mineralization.Additionally,the ratio of POC and particulate organic nitrogen(PON)affects the sea-air CO_(2) flux and the efficiency of carbon sequestration.Till date,POC and PON released during the degradation of U.prolifera remain poorly quantified and microbial regulations of POC and PON release remain unclear.We investigated the changes in POC and PON concentrations and their molar ratios,and microbial abundance under different degradation densities(1 g/L and 5 g/L)during a 90-d laboratory degradation of U.prolifera.Under dark conditions,50 g and 250 g(fresh weight)of U.prolifera were added to polyethylene carboys containing 50 L filtered seawater to conduct 1 g/L and 5 g/L degradation experiments.Triplicate replicates were performed for each treatment.Samples for analyzing POC,PON,and microbial abundance were collected on days 0,4,6,8,14,21,28,60,and 90.The results showed that the degradation period of U.prolifera was divided into the leaching stage(0–14 d),during which soluble materials were lost,and the microbial degradation stage(14–90 d),during which the debris was digested by bacterial or fungal extracellular enzymes.The POC,the maximal values:(90.17±24.77)μmol/L and(219.99±45.11)μmol/L under 1 g/L and 5 g/L,respectively,and PON,the maximal values:(16.15�

关 键 词：浒苔降解 降解密度 微生物丰度 颗粒有机碳 颗粒有机氮 

分 类 号：P734[天文地球—海洋化学]