光合细菌菌剂和沼泽红假单胞菌对实验水体氮磷营养盐和微生物群落的影响

为比较光合细菌菌剂与沼泽红假单胞菌(Rhodopseudomonas palustris)的生理生态特性,分析了不同初始菌量的菌剂PG和菌株PSB-1对实验水体氨氮(NH_4~+-N)、亚硝氮(NO_2~--N)、硝氮(NO_3~--N)和活性磷(PO_4~(3-)-P)的降解效果,通过高通量测序分析了菌剂PG的优势菌组成及实验结束时水体细菌数量和微生物群落组成。结果显示,菌剂PG组对实验水体的PO_4~(3-)-P、NO_3~--N和NO_2~--N有一定的降解作用,其最大降解率分别为40.98%、28.28%和20.12%。菌株PSB-1组仅对实验水体的NO_2~--N和PO_4~(3-)-P有一定的降解效果,其最大降解率分别为14.19%和9.88%。菌剂PG的主要优势菌为红假单胞菌属(Rhodopseudomonas sp.)。实验7 d后实验组水体细菌数量和微生物群落结构发生变化,水体细菌数量增长,形成以异养细菌为优势菌的菌群结构。结果表明光合细菌菌剂PG对水质因子的降解效果优于沼泽红假单胞菌PSB-1,但与报道的高效光合细菌菌株的降解能力存在一定差距。     

草鱼养殖模式对气单胞菌属细菌群落影响分析

为研究草鱼池塘精养、山塘养殖以及鱼菜共生养殖3种养殖模式下气单胞属细菌群落特征差异,2017年5—7月(养殖投喂旺盛期)用采水器在池塘两端和中部采集表层15 cm处水样,混合均匀后,装入灭菌塑料瓶中,低温保存;在池塘两端和中部用采泥器采集表层底泥,现场各无菌称取5 g底泥,置于装有135 mL的无菌生理盐水的塑料瓶中,振荡混匀,低温保存。水样和底泥样4 h内带回实验室,利用RS平板分离法分离水体和底泥样本中的细菌,通过16S rDNA测序方法鉴定、分析分离细菌。试验结果表明,共分离细菌54株,为10属22种,其中气单胞菌属23株,假单胞菌属8株,柠檬酸杆菌属6株,肠杆菌属7株,泛菌属、沙雷氏菌属各3株,果胶杆菌属、沙门氏菌属、克吕沃尔菌属、勒克氏菌属细菌各1株。按细菌种类分,维氏气单胞菌数量最多,为12株,嗜水气单胞菌次之,为10株,烟粉肠杆菌6株,弗氏柠檬酸杆菌5株,其他细菌1～2株不等。不同养殖模式下细菌种类和数量分析表明,鱼菜共生养殖系统细菌种类和数量最多,达到12种21株,潜在致病菌占比较少,草鱼精养殖池塘细菌种类最少,为5种13株,致病菌占比较高。细菌环境分布特征表明,维氏气单胞菌多分布在水体,嗜水气单胞菌多分布于底泥中。     

水体中泼洒复合乳杆菌对尼罗罗非鱼养殖池塘环境、肠道和鳃健康的影响

研究在尼罗罗非鱼养殖池塘中添加复合乳杆菌对养殖池塘环境、尼罗罗非鱼肠道和鳃健康的影响,为乳杆菌在尼罗罗非鱼健康养殖中的应用提供基础。在尼罗罗非鱼养殖池塘水体中泼洒复合乳杆菌(对照组:0;实验组:1.0×104 CFU/mL),实验周期为10周。复合乳杆菌的成分为干酪乳杆菌和酸鱼乳杆菌,比例为1:2.2。监测池塘水质指标、罗非鱼肠道和鳃的免疫及抗氧化指标,并运用高通量测序技术(Illumina MiSeq),比较对照组和实验组水体、底泥、尼罗罗非鱼肠道和鳃黏膜共生菌群落结构差异。结果显示,从第7周开始,实验组水体中的硝酸盐含量始终低于对照组,实验组比对照组降低了72.68%、72.00%、26.27%和21.46%;实验组水体中的总氮含量在从第6周开始低于对照组,分别降低了43.39%、44.64%、15.64%、37.57%和34.49%;实验组水样中的总磷含量从第4周开始低于对照组,分别降低了40.91%、33.33%、50.00%、33.33%、17.39%、39.29%和25.71%。与对照组相比,实验组尼罗罗非鱼肠道的碱性磷酸酶(AKP)活性提高了45.04%,实验组尼罗罗非鱼鳃的总超氧化物歧化酶(SOD)和AKP分别提高了58.26%和60.99%。复合乳杆菌的添加对尼罗罗非鱼养殖池塘水体菌群结构影响较大,并未影响池塘底泥的菌群结构,影响了尼罗罗非鱼肠道和鳃的菌群结构,其中条件致病菌不动杆菌属、泛菌属细菌的相对丰度降低,而有益细菌鲸杆菌属的相对丰度增加。因此,在养殖水体中泼洒适当浓度的复合乳杆菌可以改善池塘水质,提高尼罗罗非鱼肠道和鳃的免疫力、抗氧化能力,同时调节养殖水体、尼罗罗非鱼肠道和鳃的菌群结构。     

斑点叉尾鮰养殖池塘底泥微生物群落结构特征及其影响因素

微生物群落在水产养殖环境中起着重要作用,深入了解微生物群落组成及其构建机制对了解池塘生态功能具有重要意义。本研究通过高通量测序技术研究斑点叉尾鮰（）养殖池塘底泥中细菌群落机构特征,并分析了细菌群落的主要影响因素。结果显示,斑点叉尾鮰养殖池塘底泥细菌群落结构呈现出季节性变化,冬春季样品相似性较高。斑点叉尾鮰养殖池塘底泥优势菌群主要为变形菌门（Proteobacteria）、绿弯菌门（Chloroflexi）、拟杆菌门（Bacteroidetes）、厚壁菌门（Firmicutes）和酸杆菌门（Acidobacteria）,与池塘水体细菌群落间有明显的差别。线性判别分析显示,冬、春和秋季的特异性优势菌群较为丰富,冬季和春季分布较为集中,分别集中于浮霉菌、拟杆菌门、绿弯菌门和厚壁菌门、拟杆菌门,秋季特异性优势菌群分布特别分散,而夏季优势细菌类群最少,只有绿弯菌门厌氧绳菌属1个属具有显著优势。环境因子中,透明度和总溶解性悬浮物与斑点叉尾鮰养殖池塘底泥细菌群落结构有显著相关（<0.05）,对细菌群落结构的影响也最大。本研究旨为斑点叉尾鮰池塘微生物群落的变化和调控提供借鉴。     

不同地区稻虾综合种养系统的微生物群落结构分析

为研究不同地区稻虾综合种养系统的环境及克氏原螯虾肠道的细菌群落结构差异,为改进不同地区稻虾综合养殖策略提供依据,采用Illumina Miseq高通量测序技术,研究了武汉、永州和韶关地区稻田养殖克氏原螯虾的水体、底泥及虾肠道细菌群落结构,并对水体、肠道菌群与环境因子之间的关系进行了分析。结果显示,武汉地区稻虾综合种养系统的水体、底泥及克氏原螯虾肠道细菌群落的多样性均大于永州地区和韶关地区。武汉地区的稻虾综合种养系统的水体及底泥的细菌群落结构与永州地区和韶关地区均相似,其中水体的优势菌门均为放线菌门、蓝细菌门、变形菌门和拟杆菌门;底泥的优势菌门均为变形菌门。武汉地区的克氏原螯虾肠道的优势菌门为变形菌门、厚壁菌门和拟杆菌门;优势菌属为柠檬酸杆菌属(Citrobacter,10.85%)、气单胞菌属(Aeromonas,9.88%)和[Anaerorhabdus]＿furcosa＿group (8.43%)等。永州地区的克氏原螯虾肠道的优势菌门为厚壁菌门和放线菌门;优势菌属为ZOR0006 (9.78%)、拟杆菌属(Bacteroides,5.41%)和[Anaerorhabdus]＿fur...     

中华绒螯蟹生态育苗池塘细菌群落分析

为探究江苏省射阳地区沿海滩涂中华绒螯蟹(Eriocheir sinensis)生态育苗池塘细菌群落结构,分别对养殖池塘水体(S7,S8,S9)和池塘底泥(N7,N8,N9)细菌群落16SrDNA的V3、V4、V5可变区进行扩增,检测合格的文库进行高通量测序;利用Qiime(v1.7)软件,对序列阈值97%相似性水平进行聚类分析;分别以门、纲、目、科和属的分类水平对样本进行α-多样性指数分析;以Chaol指数和Shannon指数评估菌种丰富度和多样性。结果表明,3个生态育苗池塘得到OTU分别为8 881、7 406、8 566个。S7微生物归属于16门、29纲、58目、97科、191属;S8为9门、18纲、38目、68科、132属;S9为17门、32纲、60目、111科、227属。N7为41门、103纲、198目、325科、572属;N8为42门、103纲、203目、318科、534属;N9为40门、99纲、196目、323科、578属。养殖水体优势菌群以变形菌门(Proteobacteria)为主,其次是拟杆菌门(Bacteroidetes);池塘底泥优势菌群以变形菌门为主,其次为拟杆菌门、绿弯菌门(Chloroflexi)和浮霉菌门(Planctomycetes)。养殖池塘底泥中细菌群落的丰富度和物种多样性明显高于养殖水体,水体中细菌群落的丰富度S9S7S8,物种的多样性S7S9S8。池塘底泥中细菌群落的丰富度N7N9N8,物种的多样性N7 N9N8。     

投加微生物制剂对对虾养殖池总氨氮与亚硝酸氮的影响

监测并分析了单独或组合加入光合细菌、益生菌(酵母与乳杆菌)和芽孢杆菌后,对虾养殖池凌晨水体中氨氮和亚硝酸氮的变化。试验分为6组,即3个单独添加组(益生菌组、芽孢杆菌组、光合细菌组)和3个组合添加组(光合细菌与芽孢杆菌组、益生菌与芽孢杆菌组、光合细菌与益生菌组)。结果表明,添加微生物制剂后,益生菌组、芽孢杆菌组、光合细菌与芽孢杆菌组、益生菌与芽孢杆菌组池塘水体中总氨氮水平提高了41%~99.8%;而光合细菌组、光合细菌与益生菌组无显著性变化,但亚硝酸氮水平有所升高(107%~210%)。单独添加组水体中总氨氮水平的变化强弱顺序为芽孢杆菌>益生菌>光合细菌,组合添加组为芽孢杆菌与益生菌组>芽孢杆菌与光合细菌组>益生菌与光合细菌组。试验期间各组养殖池中总氨氮浓度为0.51~1.94 mg/L、亚硝酸氮水平为0.016~0.096 mg/L,均在安全浓度以下,说明添加微生物制剂未引起池塘氨氮和亚硝酸氮的毒性问题。     

刺参养殖池环境细菌群落对底质改良剂的响应

运用平板培养计数法、最大或然数法和16S rRNA 基因的 PCR-DGGE 指纹图谱技术,分析发病刺参池塘环境中不同生理类群细菌数量及群落结构对底质改良剂的响应。结果显示,加入底质改良剂后,发病刺参池塘沉积环境中的总异养菌、硝化细菌、硫酸盐还原细菌等的数量在最初的2–4 d 有所上升,但升高幅度小于对照组,且在之后的2–4 d 内下降至加改良剂之前菌量;在加入底质改良剂后第2天,弧菌和硫化细菌数量便迅速下降,明显低于对照组。PCR-DGGE 图谱及测序结果显示,刺参养殖环境细菌优势菌分别属于绿弯菌门、变形菌门的莫拉菌科、柄杆菌科和气单胞菌科以及厚壁菌门的芽孢杆菌科和乳杆菌科的某种细菌,多样性指数在2.5–3.5之间。实验组加入底质改良剂后,气单胞菌属两种细菌数量逐渐下降。研究结果表明,底质改良剂可改变沉积环境中不同细菌类群的数量,降低致病菌的数量,从而改善底质环境并对“刺参腐皮综合征”起到防治作用。     

不同管理方式下秋季刺参养殖环境中菌群结构分析

2017年11月(秋季),在辽宁省大连市青堆子海域(N39.78°,E123.32°)的自然纳潮、微孔曝气和养水机调水3种管理方式的矩形海参(Apostichopus japonicus)养殖池塘中,按照《国家海洋调查规范》(GB/T12763)规定的方法采集水样和泥样,用高通量测序技术研究秋季不同水质调控方式下刺参养殖池塘水体和底泥中菌群群落结构特征。试验池塘面积为5.1 hm²,南深北浅,泥沙池底,实验期间各池塘不投饵和药。结果显示:三种池塘的底泥菌群多样性要高于水体中;养水机池塘水体中的菌群多样性高于其他两种池塘,微孔曝气池塘底泥中菌群多样性最高。水样和泥样中第一优势菌门都是变形菌门(Proteobacteria);次优势菌门有所不同,养水机、微孔曝气和自然纳潮池塘中,水样和泥样分别为:厚壁菌门(Firmicutes)和拟杆菌门(Bacteroidetes)、拟杆菌门(Bacteroidetes)和绿湾菌门(Chloroflexi)、拟杆菌门(Bacteroidetes)和厚壁菌门(Firmicutes)。三种池塘内优势菌群群落构成相同,但其各自门、纲和属的...     

双斑东方鲀循环水养殖水体细菌群落结构分析

利用16S rRNA高通量基因测序技术研究了双斑东方鲀(Fugu bimaculatus)循环水养殖系统养殖水体细菌种群结构特征,并比较养殖患病(溃疡症)的双斑东方鲀的水体细菌群落结构与健康的之间的差异,探讨细菌群落结构与双斑东方鲀细菌性病害发生的相关性。研究结果表明,双斑东方鲀循环水养殖水体细菌群落的优势细菌门为变形菌门(Proteobacteria)、拟杆菌门(Bacteroidetes),优势细菌纲为γ-变形菌纲(Gammaproteobacteria)、黄杆菌纲(Flavobacteriia)、α-变形菌纲(Alphaproteobacteria),优势细菌目为黄杆菌目(Flavobacteriales)、硫发菌目(Thiotrichales)、红细菌目(Rhodobacterales)、交替单胞菌目(Alteromonadales)、弧菌目(Vibrionales),优势细菌科为黄杆菌科(Flavobacteriaceae)、硫发菌科(Thiotrichaceae)、红细菌科(Rhodobacteraceae)、弧菌科(Vibrionaceae)、交替假单胞菌科(Pseudoalteromonadaceae)。患病的和健康的循环水养殖水体细菌群落种类组成相似度高,细菌群落多样性指数无较大差异,在同一分类水平上各细菌群落丰度占比差异显著;二者核心微生物(属)的差异明显,健康的循环水养殖水体核心细菌群落以Polaribacter属为主;患病的循环水养殖水体核心细菌群落以弧菌科的发光杆菌属(Photobacterium)和弧菌属(Vibrio)为主,而发光杆菌属和弧菌属的多数种类属于病原菌或条件致病菌。双斑东方鲀患病(溃疡症)与养殖水体细菌群落的弧菌属丰度占比高有关。该研究结果对双斑东方鲀循环水养殖细菌性病害的监测、预警、诊断及管理控制具有重要的意义。     

Nitrate removal efficiency and bacterial community of polycaprolactone-packed bioreactors treating water from a recirculating aquaculture system

A denitrification reactor packed with polycaprolactone (PCL) as a carbon source and biofilm carrier was developed to remove nitrate nitrogen (\( {\mathrm{NO}}_3^{-}-\mathrm{N} \)) from the water of a recirculating aquaculture system for 115 days. The hydraulic retention time was set to 6 h, and the water flow rate was 0.95 L h^?1. The removal rates of \( {\mathrm{NO}}_3^{-}-\mathrm{N} \) ranged from 34.67 to 155.7 g \( {\mathrm{NO}}_3^{-}-\mathrm{N} \) m^?3 day^?1 when the effluent \( {\mathrm{NO}}_3^{-}-\mathrm{N} \) concentrations ranged between 1.62 and 72.25 mg L^?1. No obvious changes in the Fourier transform infrared spectra of the PCL before and after use were observed. Bacterial community structure in the biofilm of the PCL granules was analyzed using Illumina MiSeq sequencing technology. Proteobacteria and Bacteroidetes were predominant in the biofilm, with relative abundances of 63.9 and 27.4%, respectively. Three genera, Acidovorax, Azospira, and Diaphorobacter, were capable of both denitrification and PCL degradation. This study indicates that PCL-packed reactors may be used and optimized for removing nitrate from aquaculture effluents.     

褐煤的碳缓释特征及其对池塘底泥脱氮作用的影响

厌氧氨氧化和反硝化作用是底泥生物脱氮的主要过程,碳源是调控厌氧氨氧化和反硝化作用的关键因子。本研究以褐煤为对象,对褐煤的静态碳释情况及其对池塘底泥中脱氮作用的影响进行了研究。结果显示,褐煤在室温条件下的碳释放规律符合二级动力学方程,具备作为反硝化碳源的可行性;在脱氮实验中,发现褐煤对底泥上覆水体中的亚硝酸盐氮(NNO₂^--N)的去除具有促进作用,NNO₂^--N的去除率随褐煤浓度的增加而升高,当褐煤质量浓度为40 g/L时,N\${\rm{O}}_2^ - $\-N去除率最高达99.61%,此时硝酸盐氮(NO₃^--N)的浓度也最低;同时发现,水体中氨氮(NH₄⁺-N)氧化的最适褐煤质量浓度为10 g/L,其去除率达99.39%;对底泥中的厌氧氨氧化菌群进行Illumina高通量测序发现,其中浮霉菌门占比最大(39.6%~71.8%),优势菌属为Candidatus Brocadia (13.9%~35.8%)和Desulfovibrio (17.1%~34.8%),添加褐煤组Candidatus Scalindua菌属比例高于未添加组;荧光定量PCR得出,随着褐煤质量浓度升高,底泥中的反硝化菌丰度呈增长趋势,而厌氧氨氧化菌丰度则低于无褐煤添加组,表明添加褐煤对底泥反硝化有促进作用,而对厌氧氨氧化有一定的抑制作用。研究表明,褐煤具备作为反硝化碳源的条件,可用于池塘养殖底泥脱氮作用。     

尼罗罗非鱼肠道及养殖环境中菌群结构与链球菌病的相关性

为研究尼罗罗非鱼肠道和池塘养殖环境中菌群结构变化与链球菌病暴发的相关性,实验采用16S r DNA高通量测序方法对比分析发病和健康池塘水体、底泥和尼罗罗非鱼肠道菌群的结构特征。结果显示,底泥中微生物多样性最高,水体和肠道中微生物多样性次之;肠道菌群与水体中菌群的相似性较高,而与底泥中菌群相似性较低;发病组的尼罗罗非鱼肠道和池塘底泥中微生物的多样性均低于健康组,而发病组池塘水体中微生物多样性高于健康组。OTU聚类分析发现,发病与健康尼罗罗非鱼肠道微生物差异极显著,大部分健康尼罗罗非鱼肠道微生物样品单独聚为一支。菌群结构组成分析结果表明,虽然发病组和健康组水体或底泥中优势菌群结构组成的差异较小,但在非优势菌群中存在一定差异,发病组水体中变形菌门和梭杆菌门的比例显著高于健康组水体,疣微菌门和浮霉菌门的丰度显著低于健康组水体;发病组池塘底泥中厌氧粘细菌属、甲烷丝菌属和枝芽孢菌属等具有降解有机质和生态修复功能,菌群的丰度显著低于健康组底泥,而具有致病能力的曼氏杆菌属丰度却显著高于健康组底泥。发病组尼罗罗非鱼肠道菌群中链球菌属、分枝杆菌属和曼氏杆菌属等致病菌群的丰度显著高于健康组尼罗罗非鱼肠道,而乳球菌属、鲸杆菌属和红球菌属等益生菌的丰度显著低于健康尼罗罗非鱼肠道。无乳链球菌普遍存在于发病和健康养殖环境,以及尼罗罗非鱼肠道中,无乳链球菌的丰度在发病和健康养殖环境之间无显著差异,但其在发病尼罗罗非鱼肠道中的丰度要显著高于健康组。研究表明,尼罗罗非鱼链球菌病发病池塘水体和底泥中有益菌丰度降低和致病菌丰度的升高反映其养殖环境出现恶化,尼罗罗非鱼链球菌病的暴发与肠道微生态平衡破坏后无乳链球菌丰度增加密切相关,但肠道中无乳链球菌丰度的剧增与养殖水体和底泥中该病原菌的丰度水平之间并无直接关联。     

The teleost pseudobranch: a role for preconditioning of ocular blood supply?

The physiological relevance of the teleost pseudobranch as a remnant of a reduced gill arch is still unclear. Numerous hypotheses have been proposed regarding its physiological role, but direct confirmatory evidence is lacking. The close relationship by serial blood flow arrangement with the fish eye’s choroid rete has sparked the idea that pseudobranchial preconditioning of blood pH may facilitate initiation of the Root effect and thus support the establishment of high oxygen tensions for retinal diffusive supply. This idea was critically tested by studies on isolated pseudobranchs in situ (Oncorhynchus mykiss), perfused with RBC/Ringer or RBC/plasma suspensions of widely varied composition (pH 7.4–8.2). Detailed analysis of inflowing as compared to effluent perfusates indicated normal aerobic metabolism expressed by a rise in Pco₂ (+0.39 ± 0.13 mmHg ), an oxygen utilization of 25% and a high oxygen consumption of ∼400 nmol g⁻¹ min⁻¹. Upon passage of the pseudobranch, pH (corrected for Haldane effect) was only slightly acidified (−0.03 to −0.10), [HCO₃ ⁻] and [lactate] were slightly enhanced (+0.51 mmol l⁻¹ or 0.13 mmol l⁻¹, respectively). In order to test for yet unknown plasma components involved in pseudobranch function, a second series of experiments was conducted using RBC-suspensions in fresh plasma instead of Ringer, with results closely resembling those of the RBC/Ringer series. Lacking any physiologically significant correlation with the level of perfusate pH, the obtained data indicate pseudobranchial basic metabolic activity rather than pH regulatory characteristics. Also the observed absolute changes in pH are negligible in terms of pH regulation towards the Root-threshold. Accordingly, the present experiments as well as plausibility evaluation of mechanisms do not support the idea of blood pH pre-adjustment prior to entry into the choroid rete structure of the teleost eye to facilitate the Root-mediated oxygen release.     

高产鱼池中异养细菌的初步研究

对无锡市效区“河埒渔业一队”典型高产鱼池中异养细菌种类、数量及群落组成的分析测定,它表明在1984年3月至10月试验期间,试验鱼池水体中总细菌数和异养细菌数分别在1.30×10~5～15.90×10~5个/ml和1.56×10~4～14.50×10~4个/ml。鱼池淤泥中总细菌数和异常细菌数分别在1.20×10~6～68.0×10~5个/克和1.94×10~5～19.90×10~5个/克。同时经分析得知,试验鱼池中细菌数量的波动与鱼池水温等理化因子各有不同的相关关系。试验鱼池水体中共分离出11个属的异养细菌,其中优势菌为氮单胞菌属(Azomonas)等具固氮能力的菌属;淤泥中共分离出8个属的异养细菌,其中优势菌为芽孢杆菌属(Bacillus)等革兰氏阳性菌属。假单胞菌属(Pseudomonas)的细菌普遍存在于鱼池的水体及淤泥中。试验表明,高产鱼池中的细菌数量变化有一定规律性,细菌数量及异养细菌的群落组成与鱼池的鱼产量有一定的关系。     

Effects of biological water purification grid on microbial community of culture environment and intestine of the shrimp Litopenaeus vannamei

Biological water purification grid (BWPG), a type of biofilm, could increase aquaculture production by improving the growth of shrimp and culture environment. In this study, the microbial community composition and diversity of water, sediment and shrimp intestine were analysed using the Illumina Miseq high‐throughput sequencing technique. Installation of BWPG did not only increase the dissolved oxygen, pH and decreased inorganic nutrients, but also increased shrimp body length by 5.39% and weight by 16.35%. Furthermore, it was found that the microbial community diversity of water and shrimp intestine in test pond with BWPG was higher than that of control pond without BWPG. Cyanobacteria, Bacillus and Lactococcus were enriched in the test pond with BWPG. However, Rhodobacter was mainly identified in the test pond. It thus seems to suggest that the application of BWPG in shrimp culture pond enhanced the microbial species richness, types of species and proportion of beneficial bacteria in culture environment as well as shrimp intestine. The results from this study will therefore provide some scientific basis for the improvement and development of shrimp aquaculture.     

Characterization of bacterial community in intestinal and rearing water of Penaeus monodon differing growth performances in outdoor and indoor ponds

Penaeus monodon provides a high‐quality protein source for humanity, and pond cultured shrimp often presents asynchronous growth. Microbial communities are important for the digestion and immunity of shrimp. Therefore, in this study, we investigated the bacterial characteristics of the intestine and rearing water of asynchronously growing P. monodon that were cultured in outdoor and indoor pond respectively. The results showed that the bacterial community of the rearing water was more complex than that of the intestine; the fast‐growing shrimp in the indoor pond had higher intestinal bacterial diversity. Besides, the dominant bacterial composition of the water was more complex than that of the intestinal. Specifically, the abundance of Proteobacteria in the intestine was consistent with the growth performance of shrimp in the outdoor pond, which was exactly the opposite in the indoor pond. At the genus level, two cyanobacteria, Limnothrix and Cyanobium PCC‐6307, were dominant in the indoor and outdoor water respectively. In the outdoor pond, Bacillus was dominant in the slow‐growing shrimp intestines, while Vibrio was dominant in the fast‐growing shrimp. The intestinal microbes of the fast‐growing shrimp had higher proteasome metabolic capacity. These results can provide new insights into microbiome characteristics involved in the asynchronous growth of shrimp.     

Effects of dietary Bacillus and medicinal herbs on the growth, digestive enzyme activity, and serum biochemical parameters of the shrimp Litopenaeus vannamei

White shrimp (Litopenaeus vannamei) was fed six different formulations of medicinal herbs (MH) and Bacillus in a feeding trial conducted for 56 days. The survival, growth, digestive enzyme activity, and serum biochemical parameters were assessed. A basal diet without MH and Bacillus was served as the control. At the end of feeding trial, survival ranged from 76.19% to 84.76% with no significant differences (P > 0.05) among all groups. Growth measured as final weight, specific growth rate (SGR), protein efficiency ratio (PER), protein productive value (PPV), and feed efficiency ratio (FER) were improved with increased dietary MH and Bacillus. Shrimp fed 0.2% MH and 0.3% Bacillus (Diet 23) were found to have the best growth performance. For shrimp fed Diet 23 final weight and SGR were significantly (P < 0.05) higher than for controls. The digestive enzyme activity of protease and amylase in hepatopancreas and intestines were significantly (P < 0.05) enhanced by the feed supplements, however amylase of the hepatopancreas was not affected. Serum protein and glucose content were enhanced by the supplement of MH and Bacillus. Serum cholesterol in shrimp of high Bacillus level groups was significantly (P < 0.05) higher than in the control group. However, no significant difference (P > 0.05) in serum Triacylglycerols between supplemented groups and control was found. Results revealed that the combined MH and Bacillus in diet could enhance growth because it can improve digestive enzyme activity and digestive metabolism.     

罗氏沼虾不同养殖模式对水体浮游生物的影响

通过围隔实验比较罗氏沼虾不同养殖模式对水体浮游生物的影响。实验设置6种养殖模式:罗氏沼虾单养(MP)、罗氏沼虾+浮萍(水面覆盖率5%)(PP)、罗氏沼虾+鲢(PF)、罗氏沼虾+背角无齿蚌+鲢(PMF)、罗氏沼虾+背角无齿蚌+浮萍(PMP)、罗氏沼虾+背角无齿蚌+浮萍+鲢(PMPF)。养殖64 d后,测定不同模式中浮游植物和三大类浮游动物(轮虫、枝角类及桡足类)的种类和数量。结果显示,上述6种模式中浮游植物共同优势种有4种,但优势度指数最大的浮游植物不同,MP组是锥囊藻属,有浮萍的PP和PMP组均为细小平裂藻,混养鲢的PF、PMF和PMPF组均为针杆藻。不同养殖模式无共同的浮游动物优势种。养殖模式对浮游生物密度具有显著影响,PF组浮游植物密度最高,MP组浮游植物密度最低,PF组浮游植物密度比MP、PP和PMP组分别高78%、53%和61%。相反,浮游动物密度MP组最高,PF组最低。混养鲢的PF、PMF和PMPF组浮游动物密度显著低于其他3组。研究表明,罗氏沼虾养殖中混养鲢可增加浮游植物密度而降低浮游动物密度,浮萍和鲢影响池塘优势种。