__NUXT_JSONP__("/work-packages/development-of-detection-tools-and-technology-for-improved-aquaculture-health-and-welfare", (function(a,b,c,d,e,f,g,h){return {data:[{c:{_rev:"q6IvLca7BfVqZtRwbnvwCj",nextLink:{image:{asset:{_ref:"image-9c990e2b2f7a180836264189a3089fa21abc0249-3200x2400-jpg",_type:a},_type:b},_rev:"iop8tFFqgfe67JrEb6lzlT",objectives:["Develop, optimize and validate a reliable, scalable, and easy-to-use operational welfare score index, for farmed common carp, European sea bass, gilthead sea bream, based on a set of indicators that are (i) species-specific, (ii) life-cycle specific, (iii) production system\u002Fphase-specific, and (iv) fulfil the welfare needs of a given species.","Develop and apply practical protocols and tools for welfare control, including the development of a “Quality of Life (QoL) scaling system” for fish that enables selecting of appropriate veterinary and behavior-monitoring interventions and defining humane endpoints to reduce suffering. Develop a prototype novel digital welfare assessment tool that incorporates machine learning methodologies and IoT applications.","Assess and model the socio-economic and environmental impact of welfare assessment.","Develop of protocols and scoring system for auditing and assessment of biosecurity (including hygiene) at site and company level with focus on European freshwater and Mediterranean aquaculture (bioexclusion and biocontainment). The use of the protocol and scoring system will lead to anonymized benchmarking and identification of site-specific goals for targeted improvement."],_id:"d0a894d1-275c-41b6-812c-eb7786eac0a3",title:"Evidence based standards and tools to advance WELFARE on farms",slug:{current:"evidence-based-standards-and-tools-to-advance-welfare-on-farms",_type:c},workPackageNumber:7,_createdAt:"2023-01-12T15:35:55Z",_type:d,_updatedAt:"2023-02-02T17:24:21Z",contacts:[{name:"Michail Pavlidis (UoC)",_key:"b616970f2263",email:"pavlidis@uoc.gr",image:{_type:b,asset:{_ref:"image-75455056e0ed6dc143691797eaec0fb4cdc1bda8-326x322-png",_type:a}},_type:e}],introduction:[{markDefs:[],children:[{_type:f,marks:[],text:"WP7 will place fish welfare at the foreground of aquaculture production, through the development of high welfare standards for certain farmed fish species.",_key:"5d4d1675073c0"}],_type:g,style:h,_key:"a1f128fd620d"}]},contacts:[{image:{_type:b,asset:{_type:a,_ref:"image-8b37a2576e8f1b6ae04200fe56bdba758594097b-150x200-jpg"}},_type:e,name:"Astrid Holzer (VUV)",_key:"6a7ab4a275ba",email:"astrid.holzer@vetmeduni.ac.at"}],workPackageNumber:6,image:{_type:b,asset:{_ref:"image-186932fc09c60e027869eb75300ba4e8ec272ff7-2304x1536-jpg",_type:a}},_type:d,_createdAt:"2023-01-12T15:32:42Z",prevLink:{objectives:["Develop new combined probiotics\u002Fphage applications for \u003Ci\u003EVibrio\u003C\u002Fi\u003E and \u003Ci\u003EFlavobacterium\u003C\u002Fi\u003E control in European sea bass and rainbow trout to be applied through live feeds and in hatcheries.","Develop a novel antimicrobial feed additive that will protect European sea bass during rearing cycle from Gram-negative bacteria and demonstrate in bacterial challenge trials that it can decrease mortalities by at least 20%.","Demonstrate that a variable lymphocyte receptor B (VLRB) recombinant antibody (rAb) can neutralise nervous necrosis virus (NNV) genotype redspotted grouper nervous necrosis virus (RGNNV) infecting early European sea bass life stages (egg, larvae, juveniles)."],_id:"91d71de7-cbbd-47d8-84bf-2e0636497d42",title:"Alternative and sustainable treatments to CONTROL pathogens in fish",_updatedAt:"2023-02-07T15:38:38Z",contacts:[{_key:"6f7cb240bda9",email:"katharios@hcmr.gr",image:{_type:b,asset:{_ref:"image-5276ad9d22b9e2b9ff0bed38a3dc859f93744efa-738x805-jpg",_type:a}},_type:e,name:"Panthelis Katharios (HCMR)"}],introduction:[{markDefs:[],children:[{_key:"8f7993a55ff70",_type:f,marks:[],text:"Work Package 5 will develop alternative bio-based and sustainable solutions to antibiotics for treating disease in fish at various stages of life."}],_type:g,style:h,_key:"371d0cc15229"}],image:{_type:b,asset:{_ref:"image-fb645c12c9466d1fbb4ee783ab89a26533646e92-2580x1944-jpg",_type:a}},_rev:"iop8tFFqgfe67JrEbkoA8h",slug:{current:"alternative-and-sustainable-treatments-to-control-pathogens-in-fish",_type:c},_type:d,workPackageNumber:5,_createdAt:"2023-01-11T15:09:54Z"},introduction:[{_key:"1ea91b65d6b7",markDefs:[],children:[{marks:[],text:"Work Package 6 will develop new tools and technology to improve both fish farm health and welfare monitoring and laboratory and farm diagnostics of fish pathogens.",_key:"b6e091ea14990",_type:f}],_type:g,style:h}],slug:{current:"development-of-detection-tools-and-technology-for-improved-aquaculture-health-and-welfare",_type:c},objectives:["Develop non-invasive monitoring tools for European sea bass and gilthead sea bream, based on morphometric characteristics and swimming performance. Combine these data with the monitoring data from environmental sensors and develop deep learning algorithms (AI) that process them to provide advice on farm operational practices that optimise welfare and performance.","Optimize non-invasive reproductive and stress hormone monitoring in gilthead sea bream broodstock to ensure that their water accumulation does not result in reproductive dysfunction.","Develop novel biomarkers for pathogens (Carp Edema Virus, \u003Ci\u003EFlavobacterium\u003C\u002Fi\u003E, \u003Ci\u003EMidichloria\u003C\u002Fi\u003E-like organism) and fish immune parameters (IgT, SCOCS3, cathelocidin) by raising aptamers \u003Ci\u003Ein vitro\u003C\u002Fi\u003E and devoid of animals for their production.","Develop rapid, affordable on-site diagnostics (qPCR on chip) for fish diseases bringing proof of concept tools to farmers at 0.1% of the current cost without any need to acquire additional equipment.","Develop laboratory diagnostic tools that can diagnose a range of diseases and the immune status of common carp and rainbow trout in single multiplex assays and to produce bioprints for \u003Ci\u003Eex vivo \u003C\u002Fi\u003Epathogen culture and host-pathogen interaction studies."],title:"Development of DETECTION tools and technology for improved aquaculture health and welfare",_id:"0d8eb66f-06c0-4a65-9c80-fb94bbda2783",_updatedAt:"2023-02-07T15:40:06Z"},_criticalFontStyles:{},_img:{"/_ipx/fit_cover,s_1700x956/https://cdn.sanity.io/images/5gxyi0da/production/186932fc09c60e027869eb75300ba4e8ec272ff7-2304x1536.jpg%3Frect=0,120,2304,1296%26w=2500%26h=1406%26q=80%26auto=format":"\u002F_nuxt\u002Fimage\u002Faad48c.jpg","/_ipx/fit_cover,s_1700x1700/https://cdn.sanity.io/images/5gxyi0da/production/8b37a2576e8f1b6ae04200fe56bdba758594097b-150x200.jpg%3Frect=0,25,150,150%26w=250%26h=250%26q=80%26auto=format":"\u002F_nuxt\u002Fimage\u002F415867.jpg","/_ipx/w_1700/https://cdn.sanity.io/images/5gxyi0da/production/c7605db9f2aa184bf46cfb162c518f94a7517d7f-957x214.png%3Fw=200%26q=80%26auto=format":"\u002F_nuxt\u002Fimage\u002F9169c0.png","/_ipx/w_1700/https://cdn.sanity.io/images/5gxyi0da/production/840eee1a04709dc34ce0c2d0a354fd8caaa0e527-484x142.png%3Fw=200%26q=80%26auto=format":"\u002F_nuxt\u002Fimage\u002F4708bd.png","/_ipx/w_1700/https://cdn.sanity.io/images/5gxyi0da/production/c7284f76f4e2c70ae31f979d1462bb28813d3875-212x192.png%3Fw=200%26q=80%26auto=format":"\u002F_nuxt\u002Fimage\u002Fae51ad.png","/_ipx/w_1700/https://cdn.sanity.io/images/5gxyi0da/production/50bd3a8d562aa4852c9bf34410d096f00f0e33c4-348x260.png%3Fw=200%26q=80%26auto=format":"\u002F_nuxt\u002Fimage\u002Fc62e53.png"}}],fetch:{},mutations:[]}}("reference","image","slug","workPackage","item","span","block","normal")));