Aohan Tang scite author profile

China is experiencing intense air pollution caused in large part by anthropogenic emissions of reactive nitrogen. These emissions result in the deposition of atmospheric nitrogen (N) in terrestrial and aquatic ecosystems, with implications for human and ecosystem health, greenhouse gas balances and biological diversity. However, information on the magnitude and environmental impact of N deposition in China is limited. Here we use nationwide data sets on bulk N deposition, plant foliar N and crop N uptake (from long-term unfertilized soils) to evaluate N deposition dynamics and their effect on ecosystems across China between 1980 and 2010. We find that the average annual bulk deposition of N increased by approximately 8 kilograms of nitrogen per hectare (P < 0.001) between the 1980s (13.2 kilograms of nitrogen per hectare) and the 2000s (21.1 kilograms of nitrogen per hectare). Nitrogen deposition rates in the industrialized and agriculturally intensified regions of China are as high as the peak levels of deposition in northwestern Europe in the 1980s, before the introduction of mitigation measures. Nitrogen from ammonium (NH4(+)) is the dominant form of N in bulk deposition, but the rate of increase is largest for deposition of N from nitrate (NO3(-)), in agreement with decreased ratios of NH3 to NOx emissions since 1980. We also find that the impact of N deposition on Chinese ecosystems includes significantly increased plant foliar N concentrations in natural and semi-natural (that is, non-agricultural) ecosystems and increased crop N uptake from long-term-unfertilized croplands. China and other economies are facing a continuing challenge to reduce emissions of reactive nitrogen, N deposition and their negative effects on human health and the environment.

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A trans-synaptic nanocolumn aligns neurotransmitter release to receptors

Tang

Chen

et al. 2016

Nature

590

781

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Synaptic transmission is maintained by a delicate, subsynaptic molecular architecture, and even mild alterations in synapse structure drive functional changes during experience-dependent plasticity and pathological disorder1,2. Key to this architecture is how the distribution of presynaptic vesicle fusion sites corresponds to the position of receptors in the postsynaptic density. However, despite long recognition that this spatial relationship modulates synaptic strength3, it has not been precisely described, due in part to the limited resolution of light microscopy. Using localization microscopy, we report here that key proteins mediating vesicle priming and fusion are mutually co-enriched within nanometer-scaled subregions of the presynaptic active zone. Through development of a new method to map vesicle fusion positions within single synapses, we found that action potential evoked fusion was guided by this protein gradient and occurred preferentially in confined areas with higher local density of RIM within the active zones. These presynaptic RIM nanoclusters closely aligned with concentrated postsynaptic receptors and scaffolding proteins4–6, suggesting a transsynaptic molecular “nanocolumn.” Thus, we propose that the nanoarchitecture of the active zone directs action potential evoked vesicle fusion to occur preferentially at sites directly opposing postsynaptic receptor-scaffold ensembles. Remarkably, NMDA receptor activation triggered distinct phases of plasticity in which postsynaptic reorganization was followed by transsynaptic nanoscale realignment. This architecture thus suggests a simple organizational principle of CNS synapses to maintain and modulate synaptic efficiency.

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The ion chemistry and the source of PM2.5 aerosol in Beijing

Wang

Zhuang

Tang

et al. 2005

Atmospheric Environment

612

289

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The ion chemistry, seasonal cycle, and sources of PM2.5 and TSP aerosol in Shanghai

Wang

Zhuang

Zhang

et al. 2006

Atmospheric Environment

492

255

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Aohan Tang

Enhanced nitrogen deposition over China

A trans-synaptic nanocolumn aligns neurotransmitter release to receptors

The ion chemistry and the source of PM2.5 aerosol in Beijing

The ion chemistry, seasonal cycle, and sources of PM2.5 and TSP aerosol in Shanghai

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