Results 121 to 130 of about 482,116 (314)
Conservation of aquatic biodiversity [PDF]
, 2001 Uganda is rich in aquatic resources. Up to 17 % of the country's surface area is covered by Aquatic systems comprising five major lakes; Victoria, Albert, Kyoga, Edward, George, about 160 minor lakes, an extensive river and stream system, dams and ponds.
Mbabazi, D., Namulemo, G., Ndawula, L.M.
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Trophic Diversity in Duckweed: Mixotrophy, More Than the Sum of its Extremes
Advanced Science, EarlyView.In the context of rising DOC in aquatic environments, mixotrophic duckweed may impact carbon cycling by acting as either a carbon sink, as they absorb CO2 through photosynthesis, or a carbon source, as they release CO2 through respiration of absorbed DOC, which depends on DOC concentration, light availability, temperature, and other environmental ...
Zuoliang Sun +5 more
wiley +1 more source
Advanced Science, EarlyView.This study introduces a dual‐regulation strategy utilizing a Mn‐doped Co3O4 support to enhance the activity and stability of low‐loading IrO2 catalysts for acidic water oxidation. Mn induces strong Mn─O covalency to reinforce the spinel lattice and activates Ir sites via interfacial electron transfer.
Zhe Liu +13 more
wiley +1 more source
Parvoviruses of Aquatic Animals
PathogensFamily Parvoviridae consists of small, non-enveloped viruses with linear, single-stranded DNA genomes of approximately 4-6 kilobases, subdivided into three subfamilies, Parvovirinae, Densovirinae, and Hamaparvovirinae, and unassigned genus Metalloincertoparvovirus. Parvoviruses of aquatic animals infect crustaceans, mollusks, and finfish.
Frederick Kibenge +3 more
openaire +3 more sources
Advanced Science, EarlyView.An exogenous reagent‐free dual‐substrate strategy harnesses phenol as an intrinsic electron donor to drive synchronous phenol degradation and Cr(VI) reduction over modified carbon nitride. π–π stacking and hydrogen bonding direct electron transfer to the catalyst, enriching photogenerated electrons and accelerating Cr(VI) reduction 6.4‐fold. This waste‐
Xiaoman Zhang +9 more
wiley +1 more source
Kankakee River Fishes of the Braidwood Station Aquatic Monitoring Area, August 1987
, 1988 Made available in DSpace on 2009-03-30T17:15:08Z (GMT). No. of bitstreams: 3 inhsaqbv01988i00001_tei.xml: 731508 bytes, checksum: b08f4d8a8957ea2b5ea99477cde6910a (MD5) inhsaqbv01988i00001_opt.pdf: 3804691 bytes, checksum ...
Dickson, B.C. +2 more
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Aquatic Commons Initiative: a model for resource sharing in marine and aquatic sciences in marine and aquatic sciences [PDF]
, 2007 The International Association of Aquatic and Marine Science Libraries and Information Centers (IAMSLIC) is a global non-profit organization that provides a forum for discussion of information issues related to marine and aquatic science.
Haas, Stephanie C.
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Advanced Science, EarlyView.This perspective proposes a cohesive machine learning strategy to decode microplastic aging. It advocates for Federated Learning to dismantle global data silos and introduces the TRACE framework (TRansport, Aging, Corona, Ecotoxicity). By integrating physics‐informed modeling with causal discovery, this approach bridges the laboratory‐field gap to ...
Yaping Lyu +6 more
wiley +1 more source
Aquatic worm reactor for improved sludge processing and resource recovery
, 2009 Municipal waste water treatment is mainly achieved by biological processes. These processes produce huge volumes of waste sludge (up 1.5 million m3/year in the Netherlands).
Hendrickx, T.L.G.
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