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Antonio Alfonzo Walter Randazzo Marcella Barbera Ciro Sannino Onofrio Corona Luca Settanni 《Journal Of Aquatic Food Product Technology》2017,26(5):620-637
Extremely halophilic archaea (EHA) might play an important role in salted fish production. So far, limited information has been available on the effect of EHA and salt concentration on the safety and quality characteristics of salted anchovies. Eight Halobacterium salinarum strains were isolated from different sea salt samples and subjected to phenotypic and genotypic characterization. The strains were then inoculated into fresh salt before addition to anchovies. A total of 18 experimental productions were performed. The inoculated trials showed the lowest counts of undesired microorganisms. In particular, salted anchovies produced with Hbt. salinarum H11 showed the lowest histamine concentration as well as the highest sensory scores. Differences in terms of volatile organic compounds (VOCs) were estimated among trials. Furthermore, multivariate analysis showed that experimental production performed with a reduced amount of salt (175 g of sea salt per kg of anchovies) did not affect the final quality of salted anchovies. The strain Hbt. salinarum H11 produced salted anchovies with well-appreciated organoleptic features. Thus, the addition of EHA and the use of a lower amount of sea salt might represent a valuable alternative to the traditional method for production of salted anchovies. 相似文献
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不同施肥方式对红壤蔬菜田氨氧化细菌和氨氧化古菌群落的影响 总被引:1,自引:0,他引:1
通过构建氨单加氧酶基因(amoA)克隆文库,研究在红壤蔬菜田上只施用磷钾化肥(PK)、只施氮磷钾化肥(NPK)、施用腐熟有机肥(DNPK)和施用新鲜有机肥(FNPK)等4种不同施肥处理的土壤氨氧化细菌(AOB)和氨氧化古菌(AOA)群落多样性及与土壤脲酶活性的相关性。结果表明:施加有机肥处理(DNPK和FNPK)的蔬菜田土壤的AOB文库和AOA文库OTU数量和Shannon指数高于只施用无机肥(NPK和PK)处理的蔬菜田土壤;DNPK和FNPK处理的土壤优势AOB菌群为多形亚硝化叶菌(Nitrosolobus multiformis),比例分别为88.5%和68.5%,NPK和PK处理的土壤优势AOB菌群为亚硝化单胞菌属(Nitrosospirasp.),比例分别为54.8%和65.5%;DNPK、FNPK、NPK和PK处理土壤优势AOA菌群均为阿伯丁土壤亚硝化细杆菌侯选种(CandidatusNitrosotalea devanaterra),比例分别为90.9%、84.4%、77.8%和45.2%;施加有机肥处理(DNPK和FNPK)的土壤脲酶活性和氨氧化微生物的多样性指数都高于只施用无机肥处理(NPK和PK);AOA群落多样性指数与土壤脲酶活性呈显著正相关,而AOB群落多样性与土壤脲酶活性相关性不显著。总体来看,有机肥比无机肥处理提高了AOA和AOB群落多样性,且AOA在红壤蔬菜田土壤氨氧化过程中起着更为重要的作用。 相似文献
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The effects of long-term fertilization of acidic soils on ammonia-oxidizing archaea (AOA) and bacteria (AOB) communities and its ecological implications remain poorly understood. We chose an acidic upland soil site under long-term (27-year) fertilization to investigate ammonia oxidizer communities under four different regimes: mineral N fertilizer (N), mineral NPK fertilizer (NPK), organic manure (OM) and an unfertilized control (CK). Soil net nitrification rates were significantly higher in OM soils than in CK, N or NPK soils. Quantitative analysis of the distribution of amoA genes by DNA-based stable isotope probing revealed that AOA dominate in CK, N and NPK soils, while AOB dominate in OM soils. Denaturing gradient gel electrophoresis and clone library analyses of amoA genes revealed that Group 1.1a-associated AOA (also referred to as Nitrosotalea) were the most dominant active AOA population (>92%), while Nitrosospira Cluster 3 and Cluster 9 were predominant among active AOB communities. The functional diversity of active ammonia oxidizers in acidic soils is affected by long-term fertilization practices, and the responses of active ammonia oxidizers to mineral fertilizer and organic manure are clearly different. Our results provide strong evidence that AOA are more highly adapted to growth at low pH and low substrate availability than AOB, and they suggest that the niche differentiation and metabolic diversity of ammonia oxidizers in acidic soils are more complex than previously thought. 相似文献
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Soil pollution by elevated heavy metals exhibits adverse effects on soil microorganisms. Ammonia oxidizing bacteria and ammonia oxidizing archaea perform ammonia oxidative processes in acidic soils. However, influence of heavy metal stress on soil ammonia oxidizers distribution and diversity is inadequately addressed. This study investigated the responses of ammonia oxidizing bacteria and archaea to heavy metals, Cu and As during short-term laboratory experiment. Two different acidic alfisols named as Rayka and Hangzhou spiked with different concentrations of As, Cu and As + Cu were incubated for 10 weeks. Significant reduction in copy numbers of archaeal-16S rRNA, bacterial-16S rRNA and functional amoA genes was observed along elevated heavy metal concentrations. Ammonia oxidizing archaea was found to be more abundant than ammonia oxidizing bacteria in all the heavy metal treatments. The potential nitrification rate significantly decreased with increasing As and Cu concentrations in the two soils examined. Denaturing gradient gel electrophoresis analysis revealed no apparent community shift for ammonia oxidizing archaea even at higher concentrations of As and Cu. Phylogenetic analysis of archaeal amoA gene from 4 clone libraries indicated that all the archaeal amoA sequences were placed within 3 distinct clusters from soil and sediment group 1.1b of Thaumarchaeota. Our results could be useful for the better understanding of the ecological effects of heavy metals on the abundance and diversity of soil ammonia oxidizers. 相似文献
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模拟条件下土壤硝化作用及硝化微生物对不同水分梯度的响应 总被引:6,自引:0,他引:6
以江苏滨海县一植稻土壤为研究对象,在微宇宙培养条件下设置了不同水分处理(最大持水量的30%、60%、90%和淹水2 cm深),研究了硝化作用及硝化微生物对水分变化的响应特征。结果表明:淹水处理显著降低了土壤的氧化还原电位(Eh),但所有处理土壤Eh变化范围为330~500 m V,土壤整体处于氧化态。在每7天向土壤加入10 mg kg-1NH+4-N的连续培养过程中,各个水分处理均观察到明显的NH+4-N降低和NO-3-N累积的现象,60%WHC处理下土壤硝态氮累积最显著和迅速,90%WHC处理次之,随培养时间延长,30%WHC和淹水处理也观察到明显的硝化作用。淹水处理中氨氧化细菌(Ammonia-oxidizing bacteria,AOB)的数量显著高于非淹水处理,且淹水处理中AOB在DGGE图谱上的条带更加清晰明亮,而氨氧化古菌(Ammonia-oxidizing archaea,AOA)的群落组成和数量在不同水分处理间无明显变化。表明该土壤中AOB对水分条件变化响应灵敏,是该土壤的硝化作用、尤其是淹水条件下硝化作用发生的主要原因。 相似文献
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氮肥形态对香蕉种植土壤中氨氧化细菌与古菌的影响 总被引:1,自引:0,他引:1
氨氧化微生物通过影响氮素在土壤中的转化而间接影响作物对不同氮素形态的吸收。因此,本实验采集了海南省种植香蕉的滨海土壤,通过施用硫酸铵和硝酸钙,研究了氨氧化细菌(AOB)和氨氧化古菌(AOA)的数量与群落的变化,并测定了香蕉的生长与氮营养状况。通过构建氨氧化细菌和古菌的功能基因amo A文库后发现:施用硫酸铵的土壤中AOB的amo A基因拷贝数显著高于施用硝酸钙的土壤和不施肥的土壤,而AOA的拷贝数低于硝酸钙与不施肥处理。但是氨氧化古菌AOA的绝对数量都高于AOB。施用硫酸铵的土壤中AOB的群落多样性和丰富度明显增加,而施用硝酸钙的土壤却没有发生显著变化。施用硫酸铵和硝酸钙的土壤中AOA群落结构相似,但丰富度和多样性均高于不施肥处理。从施肥效果看,相比硫酸铵,硝酸钙显著提高了香蕉植株的生物量和全氮含量。上述结果表明,在南方酸性土壤中AOA占优势,虽然施用铵态氮肥可以促进AOB的丰度与多样性,但是很可能会抑制AOA的数量。因此,在海南滨海土中施用铵态氮肥后,通过硝化作用以满足香蕉吸收硝态氮的需求达不到理想的效果,应直接补充硝态氮肥来促进香蕉生长。 相似文献
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Makimi Wakai Shusuke Hayashi Yuko Chiba Satoshi Koike Kyo Nagashima Yasuo Kobayashi 《Animal Science Journal》2021,92(1):e13598
The growth and morphology of rumen methanogenic archaea (15 strains of 10 species in 5 genera, including 7 strains newly isolated in the present study) and bacteria (14 species in 12 genera) were investigated using unsupplemented in vitro pure cultures and cultures supplemented with cashew nut shell liquid (CNSL) and its phenolic compound components, anti-methanogenic agents for ruminant animals. Growth of most of the methanogens tested was inhibited by CNSL and alkylphenols at different concentrations ranging from 1.56 to 12.5 μg/ml. Of the alkylphenols tested, anacardic acid exhibited the most potent growth inhibition. Three gram-negative bacterial species involved in propionate production were resistant to CNSL and alkylphenols (>50 μg/ml). All the methanogens and bacteria that were sensitive to CNSL and alkylphenols exhibited altered morphology; disruption of the cell surface was notable, possibly due to surfactant activity of the tested materials. Cells division was inhibited in some organisms, with cell elongation and unclear septum formation observed. These results indicate that CNSL and alkylphenols, particularly anacardic acid, inhibit both rumen bacteria and methanogens in a selective manner, which could help mitigate rumen methane generation. 相似文献
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Chiaki Narabe Saki Kamiyama Mizuki Saito Phoompong Boonsaen Anchalee Khongpradit Suriya Sawanon Yutaka Suzuki Satoshi Koike Yasuo Kobayashi 《Animal Science Journal》2021,92(1):e13614
The methane-mitigating potency of cashew nutshell liquid (CNSL) was evaluated by investigating gas production from batch cultures using feces from Thai native ruminants that had been incubated for different periods. Feces was obtained from four Thai native cattle and four swamp buffaloes reared under practical feeding conditions at the Kasetsart University farm, Thailand. Fecal slurry from the same farm was also included in the analysis. CNSL addition successfully suppressed the methane production potential of feces from both ruminants by shifting short chain fatty acid profiles towards propionate production. Methane mitigation continued for almost 150 days, although the degree of mitigation was more apparent from Day 0 to Day 30. Bacterial and archaeal community shifts with CNSL addition were observed in feces from both ruminants; specifically, Bacteroides increased, whereas Lachnospiraceae and Ruminococcaceae decreased in feces to which CNSL was added. Fecal slurry did not show marked changes in gas production with CNSL addition. The findings showed that the addition of CNSL to the feces of ruminants native to the Southeast Asian region can suppress methane emission. Because CNSL can be easily obtained as a byproduct of the local cashew industry in this region, its on-site application might be ideal. 相似文献