Production and use in intensive fish farms of preventive feed supplements based on immunostimulating strains of microalgae that have not been used to date (Q3923169): Difference between revisions
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1. The main tasks set for the project Work Package 1. Selection of microalgae strains relevant for feeding purposes Task 1.1 Selection of algae strains depending on bioactive components involved in the prevention of fish diseases. HAKI Tasks: Outcome of a review of the literature on substances used for the prevention of fish diseases: Collection of knowledge about naturally occurring immunostimulators, their bioactive components. 1.3 and 2.2 (database) Task 1.2 Testing components in premixes and special feeds leading to: HAKI (in cooperation with BZN) Tasks: Examine commercially available vitamin premixes and special foods, where we determine the content of ß carotene, lutein, vitamins C and E, ß 1-3-glucan, phycobiliprotein, eicosapentaenoic acid, docosahexaenoic acid, astaxanthin. In addition to the determination of the active substance, detection methods and source algae strains are also organised, as well as the measurement, isolation and culture conditions in the database under construction. Analytical test result of marketed fish feed premixes and special fish feeds. 1.3 and 2.2 (database) Task 1.3 Selection of algae strains according to known parameters leading to: Tasks: Main selection parameters: inner content, breeding protocols (sizability testing). Molecular characterisation is done in Task 1.6. The results of this exercise will be used. The results and data of the task complement the database to be created. result of: The results of selected strains of algae that can be included in the experiments should be included in továbbvitele:Feladat 1.4, 1.5, 2.2 Limnology institute. Task 1.4 Examination of the functioning of the photosynthetic apparatus. Examination of the reactions of the organism (algae) in order to optimise the growing conditions leading to: Tasks: In particular, we look at: • photosynthetic parameters: optimal upbringing conditions • pigment and lipid composition tests • lipid membranes fatty acid composition, testing of rigidity • SANA measurements • SZBK: result of volume-grown strains: A guided selection protocol for algae strains and related educational material; Species characterisation of new isolates, continuation of results: Task 1.5; 2.2 Task 1.5 Optimising and defining optimal growing conditions for algae strains: Result of BZN: Crop technology core selection protocol, platform creation Tasks: • examination of the parameters of the optimal growing medium, solving measures to increase the size • Optimisation of nutrients • Determination of N-P-K requirements during size increase — definition of economically applicable nutrients • continuation of the results of large-scale, closed-system experiments: 1.4 Task 1.6 Selected strains of algae selection protocol lead: Result of BZN: Summary of characterisation data for the stock of algae relevant for disease prevention and definition of intellectual products Tasks: 1. Definition of the guiding protocol for the selection of algae strains. whole cell algae biomass; algae biomass fraction (ii) determination of production criteria: small amounts of recommended algae strains in large quantities; propose breeding techniques (closed,) 2. Continuation of the results of the algae stock culture (deposit) specifically intended for fish feeding: Task 1.3,2.2 Work Package 4; Work Package 5 Work Package 2 Base and applied research methods supporting cultivation technology. Task 2.1 Microbiological quality assurance is leading in algal cultivation technology: Result of BZN: Development of a DNA-based quality assurance system Task: Method validation on laboratory and real samples, Result: DNA based determination method, which includes the sample preparation and measurement method. Moving forward: Work package 2.2 Task 2.2 Establishment of an Alga bioinformatics database: Result of: pooling of research bases and applied research results to detect the needs of researchers and the market, accessible and searched during the project. Data Mining Activities Continuous Tasks: BioDjinn Knowledge Management Software and Taxonomy Modification with Program Design Mathematicians for algae database data input, training of data curators for text mining of specified algae literature and patents. follow-up of its results: Task 2.3, after project completion Task 2.3 Description of cultivation parameters of mixed algae culture lead: Result of BZN: Solution of co-education of known algae isolates in laboratory conditions: Tasks: examination of the joint propagation of strains with different intrinsic values, with a dual purpose: a) test for the stability of monoculture culture b) today (English) | |||||||||||||||
| Property / summary: 1. The main tasks set for the project Work Package 1. Selection of microalgae strains relevant for feeding purposes Task 1.1 Selection of algae strains depending on bioactive components involved in the prevention of fish diseases. HAKI Tasks: Outcome of a review of the literature on substances used for the prevention of fish diseases: Collection of knowledge about naturally occurring immunostimulators, their bioactive components. 1.3 and 2.2 (database) Task 1.2 Testing components in premixes and special feeds leading to: HAKI (in cooperation with BZN) Tasks: Examine commercially available vitamin premixes and special foods, where we determine the content of ß carotene, lutein, vitamins C and E, ß 1-3-glucan, phycobiliprotein, eicosapentaenoic acid, docosahexaenoic acid, astaxanthin. In addition to the determination of the active substance, detection methods and source algae strains are also organised, as well as the measurement, isolation and culture conditions in the database under construction. Analytical test result of marketed fish feed premixes and special fish feeds. 1.3 and 2.2 (database) Task 1.3 Selection of algae strains according to known parameters leading to: Tasks: Main selection parameters: inner content, breeding protocols (sizability testing). Molecular characterisation is done in Task 1.6. The results of this exercise will be used. The results and data of the task complement the database to be created. result of: The results of selected strains of algae that can be included in the experiments should be included in továbbvitele:Feladat 1.4, 1.5, 2.2 Limnology institute. Task 1.4 Examination of the functioning of the photosynthetic apparatus. Examination of the reactions of the organism (algae) in order to optimise the growing conditions leading to: Tasks: In particular, we look at: • photosynthetic parameters: optimal upbringing conditions • pigment and lipid composition tests • lipid membranes fatty acid composition, testing of rigidity • SANA measurements • SZBK: result of volume-grown strains: A guided selection protocol for algae strains and related educational material; Species characterisation of new isolates, continuation of results: Task 1.5; 2.2 Task 1.5 Optimising and defining optimal growing conditions for algae strains: Result of BZN: Crop technology core selection protocol, platform creation Tasks: • examination of the parameters of the optimal growing medium, solving measures to increase the size • Optimisation of nutrients • Determination of N-P-K requirements during size increase — definition of economically applicable nutrients • continuation of the results of large-scale, closed-system experiments: 1.4 Task 1.6 Selected strains of algae selection protocol lead: Result of BZN: Summary of characterisation data for the stock of algae relevant for disease prevention and definition of intellectual products Tasks: 1. Definition of the guiding protocol for the selection of algae strains. whole cell algae biomass; algae biomass fraction (ii) determination of production criteria: small amounts of recommended algae strains in large quantities; propose breeding techniques (closed,) 2. Continuation of the results of the algae stock culture (deposit) specifically intended for fish feeding: Task 1.3,2.2 Work Package 4; Work Package 5 Work Package 2 Base and applied research methods supporting cultivation technology. Task 2.1 Microbiological quality assurance is leading in algal cultivation technology: Result of BZN: Development of a DNA-based quality assurance system Task: Method validation on laboratory and real samples, Result: DNA based determination method, which includes the sample preparation and measurement method. Moving forward: Work package 2.2 Task 2.2 Establishment of an Alga bioinformatics database: Result of: pooling of research bases and applied research results to detect the needs of researchers and the market, accessible and searched during the project. Data Mining Activities Continuous Tasks: BioDjinn Knowledge Management Software and Taxonomy Modification with Program Design Mathematicians for algae database data input, training of data curators for text mining of specified algae literature and patents. follow-up of its results: Task 2.3, after project completion Task 2.3 Description of cultivation parameters of mixed algae culture lead: Result of BZN: Solution of co-education of known algae isolates in laboratory conditions: Tasks: examination of the joint propagation of strains with different intrinsic values, with a dual purpose: a) test for the stability of monoculture culture b) today (English) / rank | |||||||||||||||
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| Property / summary: 1. The main tasks set for the project Work Package 1. Selection of microalgae strains relevant for feeding purposes Task 1.1 Selection of algae strains depending on bioactive components involved in the prevention of fish diseases. HAKI Tasks: Outcome of a review of the literature on substances used for the prevention of fish diseases: Collection of knowledge about naturally occurring immunostimulators, their bioactive components. 1.3 and 2.2 (database) Task 1.2 Testing components in premixes and special feeds leading to: HAKI (in cooperation with BZN) Tasks: Examine commercially available vitamin premixes and special foods, where we determine the content of ß carotene, lutein, vitamins C and E, ß 1-3-glucan, phycobiliprotein, eicosapentaenoic acid, docosahexaenoic acid, astaxanthin. In addition to the determination of the active substance, detection methods and source algae strains are also organised, as well as the measurement, isolation and culture conditions in the database under construction. Analytical test result of marketed fish feed premixes and special fish feeds. 1.3 and 2.2 (database) Task 1.3 Selection of algae strains according to known parameters leading to: Tasks: Main selection parameters: inner content, breeding protocols (sizability testing). Molecular characterisation is done in Task 1.6. The results of this exercise will be used. The results and data of the task complement the database to be created. result of: The results of selected strains of algae that can be included in the experiments should be included in továbbvitele:Feladat 1.4, 1.5, 2.2 Limnology institute. Task 1.4 Examination of the functioning of the photosynthetic apparatus. Examination of the reactions of the organism (algae) in order to optimise the growing conditions leading to: Tasks: In particular, we look at: • photosynthetic parameters: optimal upbringing conditions • pigment and lipid composition tests • lipid membranes fatty acid composition, testing of rigidity • SANA measurements • SZBK: result of volume-grown strains: A guided selection protocol for algae strains and related educational material; Species characterisation of new isolates, continuation of results: Task 1.5; 2.2 Task 1.5 Optimising and defining optimal growing conditions for algae strains: Result of BZN: Crop technology core selection protocol, platform creation Tasks: • examination of the parameters of the optimal growing medium, solving measures to increase the size • Optimisation of nutrients • Determination of N-P-K requirements during size increase — definition of economically applicable nutrients • continuation of the results of large-scale, closed-system experiments: 1.4 Task 1.6 Selected strains of algae selection protocol lead: Result of BZN: Summary of characterisation data for the stock of algae relevant for disease prevention and definition of intellectual products Tasks: 1. Definition of the guiding protocol for the selection of algae strains. whole cell algae biomass; algae biomass fraction (ii) determination of production criteria: small amounts of recommended algae strains in large quantities; propose breeding techniques (closed,) 2. Continuation of the results of the algae stock culture (deposit) specifically intended for fish feeding: Task 1.3,2.2 Work Package 4; Work Package 5 Work Package 2 Base and applied research methods supporting cultivation technology. Task 2.1 Microbiological quality assurance is leading in algal cultivation technology: Result of BZN: Development of a DNA-based quality assurance system Task: Method validation on laboratory and real samples, Result: DNA based determination method, which includes the sample preparation and measurement method. Moving forward: Work package 2.2 Task 2.2 Establishment of an Alga bioinformatics database: Result of: pooling of research bases and applied research results to detect the needs of researchers and the market, accessible and searched during the project. Data Mining Activities Continuous Tasks: BioDjinn Knowledge Management Software and Taxonomy Modification with Program Design Mathematicians for algae database data input, training of data curators for text mining of specified algae literature and patents. follow-up of its results: Task 2.3, after project completion Task 2.3 Description of cultivation parameters of mixed algae culture lead: Result of BZN: Solution of co-education of known algae isolates in laboratory conditions: Tasks: examination of the joint propagation of strains with different intrinsic values, with a dual purpose: a) test for the stability of monoculture culture b) today (English) / qualifier | |||||||||||||||
point in time: 8 February 2022
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Revision as of 17:46, 8 February 2022
Project Q3923169 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Production and use in intensive fish farms of preventive feed supplements based on immunostimulating strains of microalgae that have not been used to date |
Project Q3923169 in Hungary |
Statements
742,046,098 forint
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2,028,476.21 Euro
0.0027336256 Euro
15 December 2021
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742,046,098.0 forint
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100.0 percent
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1 July 2017
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10 September 2021
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NEMZETI AGRÁRKUTATÁSI ÉS INNOVÁCIÓS KÖZPONT
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46°51'43.70"N, 20°33'7.74"E
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1. A projekt kitűzött fontosabb feladatai Munkacsomag 1. : Takarmányozási szempontból jelentős mikroalga törzsek kiválasztása Feladat 1.1 Algatörzsek szelektálása kiemelten halbetegségek megelőzésében szerepet játszó bioaktív komponensek függvényében. vezető: HAKI Feladatok: Halbetegségek megelőzésére használt anyagokkal kapcsolatos szakirodalom áttekintése eredménye: Ismeretanyag összegyűjtése a természetben előforduló immunstimulátorokról, azok bioaktív komponenseiről. eredményének továbbvitele: 1.3 és 2.2 (adatbázis) Feladat 1.2 Komponensek vizsgálata a premixekben és speciális tápokban vezető: HAKI (a BZN közreműködésével) Feladatok: Vizsgáljuk a kereskedelmi forgalomban lévő vitamin tartalmú premixeket és speciális tápokat, melyeknél meghatározzuk a ß karotin, lutein, C és E vitamin, ß 1-3-glukán, phycobiliprotein, eikozapentaénsav, dokozahexaénsav, asztaxantin tartalmat. A hatóanyag tartam meghatározás mellett a kimutatási módszereket és forrásul szóba jöhető algatörzseket is rendszerezzük, valamint a kialakítás alatt lévő adatbázisba illesztjük a mérési, izolálási és tenyésztési körülményeket. eredménye: A forgalmazott haltáp premixek és speciális haltápok elemző vizsgálati eredménye. eredményének továbbvitele: 1.3 és 2.2 (adatbázis) Feladat 1.3 algatörzsek szelektálása az ismert paraméterek függvényében vezető: SZBK Feladatok: A szelekció főbb paraméterei: beltartalom, tenyésztési protokollok (méretnövelhetőség vizsgálata). A molekuláris karakterizáció a Feladat 1.6-ban történik. Ennek eredményeit használja fel jelen feladat. A feladat eredményei és adatai kiegészítik a létrehozandó adatbázist. eredménye: A kísérletekbe bevonható kiválasztott algatörzsek eredményének továbbvitele:Feladat 1.4, 1.5, 2.2 Limnológiai intézet bevonása szükséges. Feladat 1.4 Fotoszintetikus apparátus működésének vizsgálata. Szervezet (alga) reakcióinak vizsgálata a termesztési körülmények optimalizálása érdekében vezető: SZBK Feladatok: Kiemelten vizsgáljuk az alábbiakat: • fotoszintetikus paraméterek: optimális nevelési körülmények beállítása • pigment és lipid összetétel vizsgálatok • lipidmembránok zsírsav összetétel, rigiditás vizsgálata • SANS mérések • SZBK: volumenben nevelt törzsek eredménye: Algatörzsekre vonatkozó iránymutató kiválasztási protokoll és ehhez kapcsolódó oktatási anyag; Új izolátumok faj szintű jellemzése, eredményének továbbvitele: Feladat 1.5; 2.2 Feladat 1.5 Algatörzsek optimális termesztési körülményeinek optimalizálása, meghatározása vezető: BZN eredménye: Termesztéstechnológiai törzskiválasztási protokoll, platform létrehozása Feladatok: • optimális termesztési közeg paramétereinek vizsgálata, méretnövelési lépések megoldása • tápközeg optimalizálás • N-P-K igények meghatározása a méretnövelés során – gazdaságosan alkalmazható tápközegek meghatározása • nagy volumenű, zárt rendszerű kísérletek folytatása eredményének továbbvitele: 1.4 Feladat 1.6 szelektált algatörzsek kiválasztási protokolljának meghatározása vezető: BZN eredménye: Betegségmegelőzés szempontjából releváns alga törzsállomány karakterizálási adatainak összegzése és szellemi termékek meghatározása Feladatai: 1. Algatörzsekre vonatkozó iránymutató kiválasztási protokoll definiálása. i. beltartalmi adatok alapján: egész sejtes alga biomassza; alga biomassza frakció ii. előállíthatóság szempontjainak meghatározása: kis mennyiségben, nagy mennyiségben javasolt algatörzsek; javaslattétel a tenyésztési technológiákra (zárt,) 2. Speciálisan haltakarmányozási célt szolgáló alga törzstenyészet (depozitba) eredményeinek továbbvitele: Feladat 1.3,2.2 Munkacsomag 4; Munkacsomag 5 Munkacsomag 2 Termesztés technológiát támogató alap és alkalmazott kutatási módszerek. Feladat 2.1 Mikrobiológiai minőségbiztosítás az algatermesztés technológiájában vezető: BZN eredménye: DNS alapú minőségbiztosítási rendszer kidolgozása Feladata: A módszer validálása laboratóriumi és valós mintákon, Eredmény: DNS alapú meghatározási módszer, mely tartalmazza a minta előkészítési és mérési módszert. Továbbvitele: Munkacsomag 2.2 Feladat 2.2 Alga bioinformatikai adatbázis létrehozása vezetője: ME eredménye: a kutatók és a piac igényeit felderítő, a hozzáférhető és a projekt ideje alatt kikutatott alap és alkalmazott kutatási eredmények adatbázisba rendezése. Az adatbányászati tevékenység folyamatos Feladatok: BioDjinn tudásmenedzsment szoftver és taxonómia módosítása programtervező matematikusokkal az alga adatbázis adatbevitelre, adat kurátorok betanulása a specifikált alga szakirodalom és szabadalmak szövegbányászatára. eredményeinek továbbvitele: Feladat 2.3, projekt lezárását követően Feladat 2.3 Kevert algakultúra termesztési paramétereinek leírása vezető: BZN eredménye: Ismert alga izolátumok együttes nevelésének megoldása laboratóriumi körülmények között: Feladatok: egymástól eltérő beltartalmi értékekkel jellemezhető törzsek közös szaporításának vizsgálata, melynek célja kettős: a) monokultúrás tenyésztés stabilitásának vizsgálata b) ma (Hungarian)
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1. The main tasks set for the project Work Package 1. Selection of microalgae strains relevant for feeding purposes Task 1.1 Selection of algae strains depending on bioactive components involved in the prevention of fish diseases. HAKI Tasks: Outcome of a review of the literature on substances used for the prevention of fish diseases: Collection of knowledge about naturally occurring immunostimulators, their bioactive components. 1.3 and 2.2 (database) Task 1.2 Testing components in premixes and special feeds leading to: HAKI (in cooperation with BZN) Tasks: Examine commercially available vitamin premixes and special foods, where we determine the content of ß carotene, lutein, vitamins C and E, ß 1-3-glucan, phycobiliprotein, eicosapentaenoic acid, docosahexaenoic acid, astaxanthin. In addition to the determination of the active substance, detection methods and source algae strains are also organised, as well as the measurement, isolation and culture conditions in the database under construction. Analytical test result of marketed fish feed premixes and special fish feeds. 1.3 and 2.2 (database) Task 1.3 Selection of algae strains according to known parameters leading to: Tasks: Main selection parameters: inner content, breeding protocols (sizability testing). Molecular characterisation is done in Task 1.6. The results of this exercise will be used. The results and data of the task complement the database to be created. result of: The results of selected strains of algae that can be included in the experiments should be included in továbbvitele:Feladat 1.4, 1.5, 2.2 Limnology institute. Task 1.4 Examination of the functioning of the photosynthetic apparatus. Examination of the reactions of the organism (algae) in order to optimise the growing conditions leading to: Tasks: In particular, we look at: • photosynthetic parameters: optimal upbringing conditions • pigment and lipid composition tests • lipid membranes fatty acid composition, testing of rigidity • SANA measurements • SZBK: result of volume-grown strains: A guided selection protocol for algae strains and related educational material; Species characterisation of new isolates, continuation of results: Task 1.5; 2.2 Task 1.5 Optimising and defining optimal growing conditions for algae strains: Result of BZN: Crop technology core selection protocol, platform creation Tasks: • examination of the parameters of the optimal growing medium, solving measures to increase the size • Optimisation of nutrients • Determination of N-P-K requirements during size increase — definition of economically applicable nutrients • continuation of the results of large-scale, closed-system experiments: 1.4 Task 1.6 Selected strains of algae selection protocol lead: Result of BZN: Summary of characterisation data for the stock of algae relevant for disease prevention and definition of intellectual products Tasks: 1. Definition of the guiding protocol for the selection of algae strains. whole cell algae biomass; algae biomass fraction (ii) determination of production criteria: small amounts of recommended algae strains in large quantities; propose breeding techniques (closed,) 2. Continuation of the results of the algae stock culture (deposit) specifically intended for fish feeding: Task 1.3,2.2 Work Package 4; Work Package 5 Work Package 2 Base and applied research methods supporting cultivation technology. Task 2.1 Microbiological quality assurance is leading in algal cultivation technology: Result of BZN: Development of a DNA-based quality assurance system Task: Method validation on laboratory and real samples, Result: DNA based determination method, which includes the sample preparation and measurement method. Moving forward: Work package 2.2 Task 2.2 Establishment of an Alga bioinformatics database: Result of: pooling of research bases and applied research results to detect the needs of researchers and the market, accessible and searched during the project. Data Mining Activities Continuous Tasks: BioDjinn Knowledge Management Software and Taxonomy Modification with Program Design Mathematicians for algae database data input, training of data curators for text mining of specified algae literature and patents. follow-up of its results: Task 2.3, after project completion Task 2.3 Description of cultivation parameters of mixed algae culture lead: Result of BZN: Solution of co-education of known algae isolates in laboratory conditions: Tasks: examination of the joint propagation of strains with different intrinsic values, with a dual purpose: a) test for the stability of monoculture culture b) today (English)
8 February 2022
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Szarvas, Békés
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Identifiers
GINOP-2.3.2-15-2016-00058
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