diff --git a/dhp-workflows/dhp-graph-mapper/src/test/java/eu/dnetlib/dhp/oa/graph/raw/MappersTest.java b/dhp-workflows/dhp-graph-mapper/src/test/java/eu/dnetlib/dhp/oa/graph/raw/MappersTest.java index c4e34a9a8..86082fbb5 100644 --- a/dhp-workflows/dhp-graph-mapper/src/test/java/eu/dnetlib/dhp/oa/graph/raw/MappersTest.java +++ b/dhp-workflows/dhp-graph-mapper/src/test/java/eu/dnetlib/dhp/oa/graph/raw/MappersTest.java @@ -12,7 +12,6 @@ import java.util.Objects; import java.util.Optional; import java.util.stream.Collectors; -import kotlin.jvm.Throws; import org.apache.commons.io.IOUtils; import org.apache.commons.lang3.StringUtils; import org.dom4j.DocumentException; @@ -928,7 +927,16 @@ class MappersTest { } @Test - void testNotWellFormed() throws IOException, DocumentException { + void testROHub2() throws IOException, DocumentException { + final String xml = IOUtils.toString(Objects.requireNonNull(getClass().getResourceAsStream("rohub-modified.xml"))); + final List list = new OdfToOafMapper(vocs, false, true).processMdRecord(xml); + System.out.println("***************"); + System.out.println(new ObjectMapper().writeValueAsString(list)); + System.out.println("***************"); + } + + @Test + void testNotWellFormed() throws IOException { final String xml = IOUtils .toString(Objects.requireNonNull(getClass().getResourceAsStream("oaf_notwellformed.xml"))); final DocumentException generalEx = new DocumentException(); diff --git a/dhp-workflows/dhp-graph-mapper/src/test/resources/eu/dnetlib/dhp/oa/graph/clean/terms.txt b/dhp-workflows/dhp-graph-mapper/src/test/resources/eu/dnetlib/dhp/oa/graph/clean/terms.txt index 59311d5a7..33c32a9c7 100644 --- a/dhp-workflows/dhp-graph-mapper/src/test/resources/eu/dnetlib/dhp/oa/graph/clean/terms.txt +++ b/dhp-workflows/dhp-graph-mapper/src/test/resources/eu/dnetlib/dhp/oa/graph/clean/terms.txt @@ -1049,6 +1049,7 @@ dnet:pid_types @=@ dnet:pid_types @=@ who @=@ WHO Identifier dnet:pid_types @=@ dnet:pid_types @=@ drks @=@ DRKS Identifier dnet:pid_types @=@ dnet:pid_types @=@ handle @=@ Handle dnet:pid_types @=@ dnet:pid_types @=@ data.europa.eu @=@ EU Persistent URL +dnet:pid_types @=@ dnet:pid_types @=@ w3id @=@ w3id.org dnet:topic_types @=@ dnet:topic_types @=@ ENRICH/MISSING/SUBJECT/ACM @=@ An ACM classification term that can be associated to your publications dnet:topic_types @=@ dnet:topic_types @=@ ENRICH/MISSING/SUBJECT/ARXIV @=@ An ARXIV classification term that can be associated to your publications dnet:topic_types @=@ dnet:topic_types @=@ ENRICH/MISSING/SUBJECT/DDC @=@ A Dewey Decimal classification term (DDC) that can be associated to your publications diff --git a/dhp-workflows/dhp-graph-mapper/src/test/resources/eu/dnetlib/dhp/oa/graph/raw/rohub-modified.xml b/dhp-workflows/dhp-graph-mapper/src/test/resources/eu/dnetlib/dhp/oa/graph/raw/rohub-modified.xml new file mode 100644 index 000000000..95d65ac8d --- /dev/null +++ b/dhp-workflows/dhp-graph-mapper/src/test/resources/eu/dnetlib/dhp/oa/graph/raw/rohub-modified.xml @@ -0,0 +1,85 @@ + + +
+ https://w3id.org/ro-id/0ab171a7-45c5-4194-82d4-850955504bca + 2022-09-02T09:55:35Z + rohub_data + ro-crate_data + fsh_____4119::afc7592914ae190a50570db90f55f9c2 + https://w3id.org/ro-id/0ab171a7-45c5-4194-82d4-850955504bca + 2019-03-27T15:15:22.22Z + fsh_____4119 + 2019-04-17T16:04:20.586Z +
+ + + https://w3id.org/ro-id/0ab171a7-45c5-4194-82d4-850955504bca + + + + https://w3id.org/ro-id/0ab171a7-45c5-4194-82d4-850955504bca/resources/24fae96f-f986-46e1-bfd0-a21ca20ff0ce + + + https://w3id.org/ro-id/0ab171a7-45c5-4194-82d4-850955504bca/resources/6d3427a8-352e-49f4-9796-f618c44dc16d + + + RO-crate + + open access + + + Using biological effects tools to define Good Environmental Status under the European Union Marine Strategy Framework Directive + + + The use of biological effects tools offer enormous potential to meet the challenges outlined by the European Union Marine Strategy Framework Directive (MSFD) whereby Member States are required to develop a robust set of tools for defining 11 qualitative descriptors of Good Environmental Status (GES), such as demonstrating that "Concentrations of contaminants are at levels not giving rise to pollution effects" (GES Descriptor 8). This paper discusses the combined approach of monitoring chemical contaminant levels, along side biological effect measurements relating to the effect of pollutants, for undertaking assessments of GES across European marine regions. We outline the minimum standards that biological effects tools should meet if they are to be used for defining GES in relation to Descriptor 8 and describe the current international initiatives underway to develop assessment criteria for these biological effects techniques. Crown Copyright (C) 2010 Published by Elsevier Ltd. All rights reserved. + + Poznań Supercomputing and Networking Center + + + + Generation Service + + + + + + + CNR-ISMAR + + + + + 2018-06-20T11:21:46Z + + + The use of biological effects tools offer enormous potential to meet the challenges outlined by the European Union Marine Strategy Framework Directive (MSFD) whereby Member States are required to develop a robust set of tools for defining 11 qualitative descriptors of Good Environmental Status (GES), such as demonstrating that "Concentrations of contaminants are at levels not giving rise to pollution effects" (GES Descriptor 8). This paper discusses the combined approach of monitoring chemical contaminant levels, along side biological effect measurements relating to the effect of pollutants, for undertaking assessments of GES across European marine regions. We outline the minimum standards that biological effects tools should meet if they are to be used for defining GES in relation to Descriptor 8 and describe the current international initiatives underway to develop assessment criteria for these biological effects techniques. Crown Copyright (C) 2010 Published by Elsevier Ltd. All rights reserved. + + 2018 + + open access + + + 3.866 KB + + + Ecology + EOSC::RO-crate + + + https://w3id.org/ro-id/0ab171a7-45c5-4194-82d4-850955504bca + other research product + + OPEN + + + + +
\ No newline at end of file diff --git a/dhp-workflows/dhp-graph-mapper/src/test/resources/eu/dnetlib/dhp/oa/graph/raw/rohub.xml b/dhp-workflows/dhp-graph-mapper/src/test/resources/eu/dnetlib/dhp/oa/graph/raw/rohub.xml index ca3ebe6c2..c85b55786 100644 --- a/dhp-workflows/dhp-graph-mapper/src/test/resources/eu/dnetlib/dhp/oa/graph/raw/rohub.xml +++ b/dhp-workflows/dhp-graph-mapper/src/test/resources/eu/dnetlib/dhp/oa/graph/raw/rohub.xml @@ -1,103 +1,85 @@ - + xmlns:oai="http://www.openarchives.org/OAI/2.0/" + xmlns:dri="http://www.driver-repository.eu/namespace/dri" + xmlns:xs="http://www.w3.org/2001/XMLSchema" + xmlns:dc="http://purl.org/dc/elements/1.1/">
- eosca5322f5f::4dd1aaf93ae136b65dc9ee4e6f76eac9 - 53aa90bf-c593-4e6d-923f-d4711ac4b0e1 - 2022-05-25T15:35:48.262Z - eosca5322f5f - 53aa90bf-c593-4e6d-923f-d4711ac4b0e1 - 2022-05-25T15:35:38Z + https://w3id.org/ro-id/0ab171a7-45c5-4194-82d4-850955504bca + 2022-09-02T09:55:35Z rohub_data ro-crate_data - 2022-05-25T15:36:11.094Z + fsh_____4119::afc7592914ae190a50570db90f55f9c2 + https://w3id.org/ro-id/0ab171a7-45c5-4194-82d4-850955504bca + 2019-03-27T15:15:22.22Z + fsh_____4119 + 2019-04-17T16:04:20.586Z
- - https://w3id.org/ro-id/53aa90bf-c593-4e6d-923f-d4711ac4b0e1 - - http://api.rohub.org/api/ros/53aa90bf-c593-4e6d-923f-d4711ac4b0e1/ - + + https://w3id.org/ro-id/0ab171a7-45c5-4194-82d4-850955504bca + - https://github.com/NordicESMhub/RELIANCE/blob/main/content/science/notebooks/air_quality_lockdown.ipynb + https://w3id.org/ro-id/0ab171a7-45c5-4194-82d4-850955504bca/resources/24fae96f-f986-46e1-bfd0-a21ca20ff0ce - https://github.com/NordicESMhub/RELIANCE/blob/main/content/science/notebooks/air_quality_lockdown.ipynb - https://nordicesmhub.github.io/RELIANCE/science/notebooks/air_quality_lockdown.html + https://w3id.org/ro-id/0ab171a7-45c5-4194-82d4-850955504bca/resources/6d3427a8-352e-49f4-9796-f618c44dc16d - https://nordicesmhub.github.io/RELIANCE/science/notebooks/air_quality_lockdown.html + RO-crate + + open access + + + Using biological effects tools to define Good Environmental Status under the European Union Marine Strategy Framework Directive + + + The use of biological effects tools offer enormous potential to meet the challenges outlined by the European Union Marine Strategy Framework Directive (MSFD) whereby Member States are required to develop a robust set of tools for defining 11 qualitative descriptors of Good Environmental Status (GES), such as demonstrating that "Concentrations of contaminants are at levels not giving rise to pollution effects" (GES Descriptor 8). This paper discusses the combined approach of monitoring chemical contaminant levels, along side biological effect measurements relating to the effect of pollutants, for undertaking assessments of GES across European marine regions. We outline the minimum standards that biological effects tools should meet if they are to be used for defining GES in relation to Descriptor 8 and describe the current international initiatives underway to develop assessment criteria for these biological effects techniques. Crown Copyright (C) 2010 Published by Elsevier Ltd. All rights reserved. + + Poznań Supercomputing and Networking Center + + + + Generation Service + + + - Anne Fouilloux + CNR-ISMAR - 2021-12-19T21:18:33Z + 2018-06-20T11:21:46Z - The COVID-19 pandemic has led to significant reductions in economic activity, especially during lockdowns. Several studies has shown that the concentration of nitrogen dioxyde and particulate matter levels have reduced during lockdown events. Reductions in transportation sector emissions are most likely largely responsible for the NO2 anomalies. In this study, we analyze the impact of lockdown events on the air quality using data from Copernicus Atmosphere Monitoring Service over Europe and at selected locations. + The use of biological effects tools offer enormous potential to meet the challenges outlined by the European Union Marine Strategy Framework Directive (MSFD) whereby Member States are required to develop a robust set of tools for defining 11 qualitative descriptors of Good Environmental Status (GES), such as demonstrating that "Concentrations of contaminants are at levels not giving rise to pollution effects" (GES Descriptor 8). This paper discusses the combined approach of monitoring chemical contaminant levels, along side biological effect measurements relating to the effect of pollutants, for undertaking assessments of GES across European marine regions. We outline the minimum standards that biological effects tools should meet if they are to be used for defining GES in relation to Descriptor 8 and describe the current international initiatives underway to develop assessment criteria for these biological effects techniques. Crown Copyright (C) 2010 Published by Elsevier Ltd. All rights reserved. - - - European Commission - 10.13039/501100000781 - 101017502 - Research Lifecycle Management for Earth Science Communities and Copernicus Users - - - MIT License - University of Oslo - 2021 - RO-crate + 2018 open access - 11.971 MB + 3.866 KB - Applied sciences - Meteorology + Ecology EOSC::RO-crate - - Impact of the Covid-19 Lockdown on Air quality over Europe - - - https://w3id.org/ro-id/53aa90bf-c593-4e6d-923f-d4711ac4b0e1 - 0048 + + https://w3id.org/ro-id/0ab171a7-45c5-4194-82d4-850955504bca + other research product OPEN - https://opensource.org/licenses/MIT - und - - + + + - - - - https%3A%2F%2Fapi.rohub.org%2Fapi%2Foai2d%2F - 53aa90bf-c593-4e6d-923f-d4711ac4b0e1 - 2022-05-25T15:35:38Z - - - - - false - false - 0.9 - - - -
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