1.
Biochar addition affected the dynamics of ammonia oxidizers and ni..
[1784]
|
2.
添加生物质炭对滨海盐碱土固氮菌丰度及群落结构的影响
[1007]
|
3.
Effects of long-term chlorimuron-ethyl application on the diversit..
[932]
|
4.
Genetic diversity and community structure of rhizobia nodulating S..
[906]
|
5.
山东半岛北岸不同生境潮间带浮游细菌多样性研究
[883]
|
6.
Protist Interactions and Seasonal Dynamics in the Coast of Yantai,..
[773]
|
7.
Seagrass (Zostera marina) promotes nitrification potential and sel..
[761]
|
8.
滨海盐渍化土壤中蓝细菌多样性及分布
[712]
|
9.
Marine fungal communities in water and surface sediment of a sea c..
[702]
|
10.
一种海参养殖水体长石莼、硬石莼和萱藻孢子/配子的实时定量PCR检测方法
[692]
|
11.
Seagrass (Zostera marina) Colonization Promotes the Accumulation o..
[674]
|
12.
Contrasting spatiotemporal patterns and environmental drivers of d..
[631]
|
13.
Relative Abundance of Ammonia Oxidizers, Denitrifiers, and Anammox..
[618]
|
14.
Protist-Bacteria Associations: Gammaproteobacteria and Alphaproteo..
[593]
|
15.
大叶藻(Zostera marina)海草床沉积物细菌和古菌丰度及组成的垂直剖面特..
[584]
|
16.
滨海湿地植物芦苇可培养内生真菌的多样性
[554]
|
17.
Macroalgal blooms favor heterotrophic diazotrophic bacteria in nit..
[535]
|
18.
Anaerobic ammonium oxidation (anammox) bacterial diversity, abunda..
[523]
|
19.
Incorporation of Microbial Functional Traits in Biogeochemistry Mo..
[500]
|
20.
Depth shapes alpha- and beta-diversities of microbial eukaryotes i..
[473]
|
21.
Community Structure and Abundance of Archaea in a Zostera marina M..
[457]
|
22.
Molecular cloning and characterization of FADD from the manila cla..
[448]
|
23.
A peptidoglycan recognition protein involved in immune recognition..
[440]
|
24.
A bactericidal permeability-increasing protein (BPI) from manila c..
[430]
|
25.
Intertidal zonation affects diversity and functional potentials of..
[429]
|
26.
Responses of soil nitrogen-fixing, ammonia-oxidizing, and denitrif..
[418]
|
27.
Spatiotemporal distributions and environmental drivers of diversit..
[406]
|
28.
A macin identified from Venerupis philippinarum: Investigation on ..
[406]
|
29.
Macroalgal blooms favor heterotrophic diazotrophic bacteria in nit..
[404]
|
30.
Differential effects of abiotic factors and host plant traits on d..
[400]
|
31.
Taxonomic Diversity of Pico-/Nanoeukaryotes Is Related to Dissolve..
[400]
|
32.
对虾生长不同阶段虾塘水体细菌和古菌的动态特征
[392]
|
33.
Spatiotemporal distributions and environmental drivers of diversit..
[387]
|
34.
Seagrass (Zostera marina) Colonization Promotes the Accumulation o..
[377]
|
35.
Environmental Factors and Pollution Stresses Select Bacterial Popu..
[370]
|
36.
Integrative Biomarker Assessment of the Influence of Saxitoxin on ..
[356]
|
37.
高效Rubisco羧化活性筛选体系的设计与构建
[355]
|
38.
Abundance, Diversity and Functional Potentials of Planktonic Bacte..
[346]
|
39.
Relative Abundance of Ammonia Oxidizers, Denitrifiers, and Anammox..
[330]
|
40.
Molecular diversity and biogeography of benthic ciliates in the Bo..
[326]
|
41.
温度胁迫对日本鳗草(Zostera japonica)叶际可培养细菌的影响
[325]
|
42.
Depth shapes α- and β-diversities of microbial eukaryotes in sur..
[315]
|
43.
高效Rubisco羧化活性筛选体系的设计与构建
[270]
|
44.
大叶藻(Zostera marina)海草床沉积物细菌和古菌丰度及组成的垂直剖面特..
[256]
|
45.
温带典型海草床甲烷的排放特征及其微生物消减机制
[256]
|
46.
Interactive effects of multiple antibiotic residues and ocean acid..
[255]
|
47.
对虾生长不同阶段虾塘水体细菌和古菌的动态特征
[252]
|
48.
Effects of Bacillus velezensis Supplementation on the Growth Perfo..
[235]
|
49.
The habitat differentiation, dynamics and functional potentials of..
[224]
|
50.
Intestinal microbiota perturbations in the gastropod Trochus nilot..
[224]
|
51.
Quality of Sediment Organic Matter Determines the Intertidal N2O R..
[203]
|
52.
Dynamics of Benthic Nitrate Reduction Pathways and Associated Micr..
[202]
|
53.
Intrinsic and extrinsic pathways of apoptosis induced by multiple ..
[196]
|
54.
Quantifying relative contributions of biotic interactions to bacte..
[188]
|
55.
滨海盐渍化土壤中氨氧化微生物丰度和多样性特征
[149]
|
56.
Nitrous oxide production processes and associated mechanisms in es..
[109]
|
57.
Alteration of microbial mediated carbon cycle and antibiotic resis..
[101]
|
58.
一种海参养殖水体长石莼、硬石莼和萱藻孢子/配子的实时定量PCR检测方法
[71]
|
59.
Dynamics and Distribution of Marine Synechococcus Abundance and Ge..
[21]
|