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The importance of fine particle technology in the world's ecology
Powder Technology, 1973 Abstract Fine particle technology has much to offer in controlling the world's ecology. Better and cheap instrumentation for sampling of particulates needs to be developed. The collection efficiencies of existing particle removal systems must be improved and novel methods to remove more than one pollutant in a system must be invented.
M. Balasubramanian
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Environs: Relativistic Elementary Particles for Ecology
The American Naturalist, 1982 Bernard C. Patten
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Ying yong sheng tai xue bao = The journal of applied ecology, 2021
We analyzed the feeding ecology of Cynoglossus joyneri by carbon and nitrogen stable isotope analysis based on the samples collected from the bottom trawl surveys during spring and autumn of 2018 in Haizhou Bay, China.
Wan-Hwa Chen +5 more
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We analyzed the feeding ecology of Cynoglossus joyneri by carbon and nitrogen stable isotope analysis based on the samples collected from the bottom trawl surveys during spring and autumn of 2018 in Haizhou Bay, China.
Wan-Hwa Chen +5 more
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Chemosphere, 2022
Automobile exhaust has become the main source of atmospheric particulate matter with the increase in the number of automobiles. Automobile exhaust particles (AEPs) discharged into the atmosphere can enter the aquatic environment through atmospheric deposition, rain runoff, leaching, drainage water and urban sewage and further affect aquatic organisms ...
Liang, Cui +5 more
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Automobile exhaust has become the main source of atmospheric particulate matter with the increase in the number of automobiles. Automobile exhaust particles (AEPs) discharged into the atmosphere can enter the aquatic environment through atmospheric deposition, rain runoff, leaching, drainage water and urban sewage and further affect aquatic organisms ...
Liang, Cui +5 more
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Water Resources Research, 2020
Fine particle deposition within riverbeds plays a major role in riverine ecology and biogeochemistry by altering hyporheic exchange flux. Moreover, it is ubiquitous within streams and rivers across all flow stages.
A. Preziosi-Ribero +5 more
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Fine particle deposition within riverbeds plays a major role in riverine ecology and biogeochemistry by altering hyporheic exchange flux. Moreover, it is ubiquitous within streams and rivers across all flow stages.
A. Preziosi-Ribero +5 more
semanticscholar +1 more source
Science, 2016 Microplastic's triple threat The billions of tons of plastics that we release into the environment for the most part do not biodegrade. But they do degrade, breaking into ever smaller particles that end up in the oceans. Lönnstedt et al.
Oona M. Lönnstedt, Peter Eklöv
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Implications of network particle tracking (NPT) for ecological model interpretation
Ecological Modelling, 2009Abstract Network particle tracking (NPT), building on the foundation of network environ analysis (NEA), is a new development in the definition of coherence relations within and between connected systems. This paper evaluates three ecosystem models in a comparison of throughflow- and storage-based NEA and NPT. Compartments in models with high indirect
Bernard C. Patten +3 more
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Purification Effect on Particle Size of Matrix in Ecological Filter Bed
Applied Mechanics and Materials, 2012In order to study the purification effect on the particle size of matrix in ecological filter bed, four ecological filter bed units with different particle sizes (0~2mm, 2~15mm, 15~30mm, 30~50mm) are designed to purify the polluted river water. Results show that the particle size of matrix has considerable influence on the polluted river water quality ...
Ping Yang, Ming Tao Zhou, Huan Hu
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