471. Testing of tomato brown rugose fruit virus by real-time RT-PCR (Bernabe-Orts et al. 2021) : validation reportNataša Mehle, Marta Luigi, Antonio Tiberini, Ariana Manglli, Ana Vučurović, Francesco Faggioli, 2023, final research report Abstract: Detection and identification of tomato brown rugose fruit virus.
Keywords: ToBRFV, diagnostics, method validation, EURL-Virology Published in DiRROS: 02.09.2024; Views: 212; Downloads: 144 Full text (451,74 KB) This document has many files! More... |
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473. Nadgradnja poznavanja biotskih in abiotskih značilnosti ter obsega bentoških habitatnih tipov cirkalitoralni grobi sedimenti (MC3), cirkalitoralni premešani sedimenti (MC4) in cirkalitoralni peski (MC5) : končno poročiloBorut Mavrič, Ana Fortič, Lovrenc Lipej, Tihomir Makovec, Martina Orlando-Bonaca, Valentina Pitacco, Tjaša Premrl, Milijan Šiško, Leon Lojze Zamuda, 2023, final research report Abstract: V skladu s projektno nalogo »Nadgradnja poznavanja biotskih in abiotskih značilnosti ter obsega bentoških habitatnih tipov cirkalitoralni grobi sedimenti (MC3), cirkalitoralni premešani sedimenti (MC4) in cirkalitoralni peski (MC5).« (Pogodba št. 2330-20-670002) smo pripravili končno poročilo o opravljem delu, ki naslavlja 4 glavne vsebinske sklope: a) opis metodologije, b) izris širšega habitatnega tipa MC 5 (cirkalitoralni peski) in ocena njegove površine, c) struktura epibentoške združbe na obravnavanem območju, in d) predlog monitoringa za potrebe ocene stanja tega habitatnega tipa, tako z vidika razširjenosti kot tudi stanja habitatnega tipa. Poročilo bazira na podatkih pridobljenih tekom projekta in na prejšnjih vmesnih poročilih (Mavrič in sod. 2021, 2022 in 2023) Keywords: habitatni tipi, cirkalitoral, epibentoška združba, monitoring, poročila, elektronske knjige Published in DiRROS: 02.09.2024; Views: 209; Downloads: 986 Full text (4,09 MB) This document has many files! More... |
474. Development of efficient methods and identification of barcodes for discriminating Grapevine flavescence dorée sensu-stricto from other related phytoplasmas and investigation of potential correlation between taxonomic identity and grapevine, alders and hazelnut plant hosts : project title (FLADO-VIGILANT)Nataša Mehle, Zala Kogej Zwitter, Marianne Loiseau, Xavier Foissac, Sylvie Malembic-Maher, Michael Maixner, Kerstin Zikeli, Stefano Costanzo, Luca Ferretti, Esmeraldina Sousa, 2023, final research report Abstract: Development of efficient methods and identification of barcodes for discriminating Grapevine flavescence dorée sensu-stricto from other related phytoplasmas and investigation of potential correlation between taxonomic identity and grapevine, alders and hazelnut plant hosts Keywords: Euphresco, Grapevine flavescence dorée, phytoplasmas, hazelnut, grapevine Published in DiRROS: 02.09.2024; Views: 169; Downloads: 117 Full text (491,39 KB) This document has many files! More... |
475. Detection of plant viruses using nanopore highthroughput sequencing : validation reportAnja Pecman, Veronika Bukvič, Ana Vučurović, Irena Bajde, Jakob Brodarič, Nataša Mehle, Denis Kutnjak, 2023, final research report Keywords: diagnostics, method validation, nanopores, high-throughput sequencing Published in DiRROS: 02.09.2024; Views: 313; Downloads: 1481 Full text (6,04 MB) This document has many files! More... |
476. The state of the art of local GI implementation in the Alps : deliverable 1.3.1Danilo Bevk, Thomas Böhm, Mita Drius, Danijel Kablar, Blaž Koderman, Katharina Lautze, Mojca Pintar, Luana Silveri, 2024, final research report Abstract: In the last century, human population growth and industrial development have been leading to the depletion of natural resources, to ecosystem degradation and to a worrying change in the global climatic conditions. One of the most striking forms of degradation is the fragmentation of ecosystems and habitats because of land use change, which poses a serious threat to biodiversity. A fragmented ecosystem cannot provide the human population with the fundamental ecosystem services (so-called ES hereafter), such as pollination, food, air quality, carbon sequestration, flood management, water treatment, local climate regulation, soil erosion prevention and so on. As the negative impacts of fragmentation have become apparent, the importance of maintaining ecological connectivity within ecosystems and landscapes at different levels of naturalness, including between protected areas and at the rural-urban interface, has been increasingly recognised. Keywords: green infrastructure, Alps, Interreg, ecosystem services Published in DiRROS: 02.09.2024; Views: 212; Downloads: 1416 Full text (1,80 MB) This document has many files! More... |
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479. TESTING OF CHRYSANTHEMUM STEM NECROSIS VIRUS AND OTHER AMERICAN CLADE 1 TOSPOVIRUSES BY RT-PCR : validation reportNataša Mehle, Irena Bajde, Jakob Brodarič, Ana Vučurović, 2024, final research report Abstract: Detection of Chrysanthemum stem necrosis virus (CSNV) and other tospoviruses of American
clade 1. Keywords: CSNV, orthotospovirses, diagnostics, method validation, EURL-Virology Published in DiRROS: 02.09.2024; Views: 193; Downloads: 91 Full text (808,74 KB) This document has many files! More... |
480. Deliverables 4 & 6 : refinement of pesticide risk assessment of amphibians and reptiles based on ecology and biology of wild populationsMarta Biaggini, Miguel A. Carretero, Dan Cogalniceanu, Mathieu Denoël, Christoph Leeb, Valentin Mingo, Gianpaolo Montinaro, Anamarija Žagar, 2024, final research report Abstract: Amphibians and reptiles are among the most threatened vertebrate taxa worldwide. About 41% (34%- 51%) of amphibians and 21% (18%-33%) of reptiles are included in the IUCN categories of threatened species (Critically Endangered, Endangered or Vulnerable; IUCN, 2021; Cox et al., 2022). In Europe, nearly a quarter of amphibians and one fifth of reptiles are threatened and a further 17% of amphibians and 13% of reptiles are included among the Near Threatened species (IUCN, 2021). There are multiple reasons why amphibians and reptiles are declining, but habitat loss and degradation, followed by chemical pollution, both mainly attributable to the expansion of intensive agriculture, are commonly indicated among the major causes of herpetofauna decline worldwide as well as in the European region (Gibbons et al., 2000; Collins and Storfer, 2003; Ribeiro et al., 2009; Todd et al., 2010; Böhm et al., 2013, Arntzen et al., 2017). Keywords: reptiles, amphibians, pesticides, risk assessment, environmental protection Published in DiRROS: 02.09.2024; Views: 175; Downloads: 107 Full text (971,27 KB) This document has many files! More... |