Biofloc Aquaculture as an Environmentally Friendly Climate Adaptation Option

The enzyme-containing magnetic composites are presented. The magnetic matrix for enzyme immobilization is obtained by sequential application of an amine-containing polysaccharide—chitosan and a synthetic polymer—poly(ethylene-alt-maleic acid) to the magnetite microparticles to form the interpolyelectrolyte complex shell. Then, the enzyme (trypsin) is immobilized by covalent or noncovalent binding. Thus, the suggested composites can be readily obtained in the environmentally friendly manner. The enzyme capacity of the resulting composites reaches 28.0–32.6 mg/g. The maximum hydrolysis rates of the H-Val-Leu-Lys-pNA substrate provided by these composites range within 0.60·10–7–0.77·10–7 M/min.

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Method of high frequency therapy at cows' mastitis during machine milking

Veterinaria Kubani ◽

10.33861/2071-8020-2020-2-9-12 ◽

2020 ◽

pp. 9-12

Author(s):

Viktor E. Lyubimov ◽

Keyword(s):

Dairy Cows ◽

Electromagnetic Fields ◽

High Frequency ◽

High Efficiency ◽

Environmentally Friendly ◽

Ultrahigh Frequency ◽

Machine Milking ◽

High Frequency Electromagnetic Field ◽

Milking Machine ◽

Methods Of Treatment

Health of dairy cows ensures human health, so it is important that dairy products do not contain antibiotics that are used to treat any inflammation, including mastitis. In Russia at present, the problem of mastitis in cows exists with both attached and loose housing of cows. Mastitis of dairy cows are the great problem in milking husbandry. Losses from mastitis in milk yield can reach 15-20%. The main reasons for the occurrence of nonspecific mastitis of cows are the shortcomings of the working components of the milking machine: the degree of deterioration of the nipple rubber and the violation of machine milking technology (the reduction in pre-milking time and vacuum fluctuations account for 70% of all causes). Treatment of mastitis with antibiotics is effective, but not environmentally friendly and unacceptable. For the treatment of inflammation of the udder, it is necessary to use more environmentally friendly methods of treatment, one of which is the exposure to ultra-high frequency electromagnetic field tested by medicine. Use of three types of medical-mobile milking machines with the same method of exposure to ultrahigh-frequency electromagnetic fields on cow's nipples through electrodes in milking cups: LPDA-1-UHF, LPDA-2-UHF and LPDA-UHF-30 M, is described in the article. Author proved that cows with subclinical forms of mastitis recovered faster during milking with exposure to the ultrahigh frequency than when treated by antibiotics, and milking with the ultrahigh frequency device helps to recover 82% of the affected quarters with clinical forms and 100% of cows with subclinical forms of mastitis or with udder irritation. The high efficiency of the method of exposure to electromagnetic fields of the ultrahigh frequency during machine milking by means of medical-mobile milking machines LPDA-UHF for the prevention and treatment of mastitis of cows was shown.

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Environmentally Friendly Pretreatment for Enhanced Coating of TiO2 Nanoparticles on PET/Wool Fabric

International Conference on Chemical, Civil and Environmental Engineering (CCEE’2014) Nov 18-19, 2014 Singapore ◽

10.15242/iicbe.c1114060 ◽

2014 ◽

Keyword(s):

Tio2 Nanoparticles ◽

Environmentally Friendly ◽

Wool Fabric

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The Methow Beaver Project: the Challenges of an Ecosystem Services Experiment

Case Studies in the Environment ◽

10.1525/cse.2017.001057 ◽

2019 ◽

Vol 3 (1) ◽

pp. 1-14

Author(s):

Philip Brick ◽

Kent Woodruff

Keyword(s):

Ecosystem Services ◽

Climate Adaptation ◽

Castor Canadensis ◽

Water Storage ◽

Climate Projections ◽

High Mountain ◽

Natural Resource Policy ◽

Watershed Scale ◽

Positive Role ◽

Climate Conditions

This case explores the Methow Beaver Project (MBP), an ambitious experiment to restore beaver (Castor canadensis) to a high mountain watershed in Washington State, USA. The Pacific Northwest is already experiencing weather regimes consistent with longer term climate projections, which predict longer and drier summers and stronger and wetter winter storms. Ironically, this combination makes imperative more water storage in one of the most heavily dammed regions in the nation. Although the positive role that beaver can play in watershed enhancement has been well known for decades, no project has previously attempted to re-introduce beaver on a watershed scale with a rigorous monitoring protocol designed to document improved water storage and temperature conditions needed for human uses and aquatic species. While the MBP has demonstrated that beaver can be re-introduced on a watershed scale, it has been much more difficult to scientifically demonstrate positive changes in water retention and stream temperature, given hydrologic complexity, unprecedented fire and floods, and the fact that beaver are highly mobile. This case study can help environmental studies students and natural resource policy professionals think about the broader challenges of diffuse, ecosystem services approaches to climate adaptation. Beaver-produced watershed improvements will remain difficult to quantify and verify, and thus will likely remain less attractive to water planners than conventional storage dams. But as climate conditions put additional pressure on such infrastructure, it is worth considering how beaver might be employed to augment watershed storage capacity, even if this capacity is likely to remain at least in part inscrutable.

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