| P2093 | author name string | Gang Fu | |
| | Junsheng Li | |
| | Nengwen Xiao | |
| | Bing Yan | |
| | Yue Qi | |
| | Gaohui Liu | |
| | Mengping Qiao | |
| P2860 | cites work | QIIME allows analysis of high-throughput community sequencing data | Q24616873 |
| | Naive Bayesian classifier for rapid assignment of rRNA sequences into the new bacterial taxonomy | Q29547619 |
| | PyNAST: a flexible tool for aligning sequences to a template alignment | Q29616628 |
| | The diversity and biogeography of soil bacterial communities | Q29617328 |
| | Global biodiversity scenarios for the year 2100 | Q29617332 |
| | Pyrosequencing-based assessment of soil pH as a predictor of soil bacterial community structure at the continental scale | Q29617333 |
| | Environmental biodiversity, human microbiota, and allergy are interrelated | Q30052290 |
| | Bacterial community in alpine grasslands along an altitudinal gradient on the Tibetan Plateau | Q30664253 |
| | Microbial diversity and function in soil: from genes to ecosystems | Q31073757 |
| | Toward an ecological classification of soil bacteria. | Q33289307 |
| | Global change and the ecology of cities | Q33318748 |
| | The cladistic basis for the phylogenetic diversity (PD) measure links evolutionary features to environmental gradients and supports broad applications of microbial ecology's "phylogenetic beta diversity" framework | Q33525277 |
| | Soil bacterial diversity in the Arctic is not fundamentally different from that found in other biomes | Q33609158 |
| | Horizon scan of global conservation issues for 2011. | Q33761958 |
| | Novel urban ecosystems, biodiversity, and conservation | Q33855148 |
| | Toward understanding, managing, and protecting microbial ecosystems. | Q33957874 |
| | Shifts in soil microorganisms in response to warming are consistent across a range of Antarctic environments | Q34027233 |
| | Tropical soil bacterial communities in Malaysia: pH dominates in the equatorial tropics too. | Q34186710 |
| | Microbial nitrogen cycles: physiology, genomics and applications | Q34265088 |
| | Temporal variability and effect of environmental variables on airborne bacterial communities in an urban area of Northern Italy | Q34439830 |
| | Continental-scale distributions of dust-associated bacteria and fungi. | Q34473185 |
| | Cross-biome metagenomic analyses of soil microbial communities and their functional attributes. | Q34510046 |
| | Phylogenetic clustering increases with elevation for microbes. | Q34767631 |
| | The microbial engines that drive Earth's biogeochemical cycles. | Q34780678 |
| | The microbial gene diversity along an elevation gradient of the Tibetan grassland. | Q34975894 |
| | Soil pH determines microbial diversity and composition in the park grass experiment. | Q35419837 |
| | Soil bacterial diversity patterns and drivers along an elevational gradient on Shennongjia Mountain, China | Q35648806 |
| | Urban stress is associated with variation in microbial species composition-but not richness-in Manhattan | Q35783431 |
| | Prokaryotic diversity and its limits: microbial community structure in nature and implications for microbial ecology | Q35804654 |
| | Does urbanization shape bacterial community composition in urban park soils? A case study in 16 representative Chinese cities based on the pyrosequencing method | Q40143141 |
| | Effects of season and experimental warming on the bacterial community in a temperate mountain forest soil assessed by 16S rRNA gene pyrosequencing | Q42214407 |
| | Biogeographic patterns in below-ground diversity in New York City's Central Park are similar to those observed globally. | Q51404964 |
| | A global analysis of the impacts of urbanization on bird and plant diversity reveals key anthropogenic drivers. | Q51469503 |
| | Soil bacterial and fungal communities across a pH gradient in an arable soil. | Q51631348 |
| | Urbanization, Biodiversity, and Conservation | Q56387435 |
| | Biotic homogenization at the community scale: disentangling the roles of urbanization and plant invasion | Q56490239 |
| | Urbanization as a major cause of biotic homogenization | Q56781794 |
| | Urban Ecological Systems: Linking Terrestrial Ecological, Physical, and Socioeconomic Components of Metropolitan Areas | Q56912592 |
| | The influence of soil properties on the structure of bacterial and fungal communities across land-use types | Q56942822 |
| | Estimating the effects of increased urbanization on surface meteorology and ozone concentrations in the New York City metropolitan region | Q58067339 |
| | Reimagining cities. Introduction | Q80656951 |
| P4510 | describes a project that uses | ArcGIS | Q513297 |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Beijing | Q956 |
| | urbanization | Q161078 |
| | bacterial community | Q129982151 |
| | urban soil | Q116004102 |
| | soil bacterial community | Q121267935 |
| P304 | page(s) | 38811 | |
| P577 | publication date | 2016-12-09 | |
| P1433 | published in | Scientific Reports | Q2261792 |
| P1476 | title | Urban-development-induced Changes in the Diversity and Composition of the Soil Bacterial Community in Beijing | |
| P478 | volume | 6 | |