Restore missing relationship metadata and abstracts in preprint DOIs

[mariagould]

Crossref flagged that relationship metadata and abstracts have disappeared from about 300 of our preprint DOIs, based on a snapshot they took comparing February 2019 and February 2021.

We need to restore the missing relationship metadata and missing abstract text so that the preprint DOIs can be linked to the versions of record.

Comparison files are here: https://gist.github.com/mariagould/e69b1a5c5bf7b0520c06c1381631cf7e

Example case: doi:10.31223/osf.io/27s3z

2019-02 snapshot: {"indexed": {"date-parts": [[2018, 10, 13]], "date-time": "2018-10-13T17:10:43Z", "timestamp": 1539450643308}, "posted": {"date-parts": [[2018, 2, 22]]}, "group-title": "EarthArXiv", "reference-count": 0, "publisher": "Center for Open Science", "license": [{"URL": "https://creativecommons.org/licenses/by/4.0/legalcode", "start": {"date-parts": [[2018, 2, 22]], "date-time": "2018-02-22T00:00:00Z", "timestamp": 1519257600000}, "delay-in-days": 0, "content-version": "unspecified"}], "content-domain": {"domain": [], "crossmark-restriction": false}, "short-container-title": [], "abstract": "<p>Fire frequency and severity are increasing in high latitude regions, but the degree to which groundwater flow impacts the response of permafrost to fire remains poorly understood. Here, we use the Anaktuvuk River Fire (Alaska, USA) as an example for simulating groundwater-permafrost interactions following fire. We identify key thermal and hydrologic parameters controlling permafrost response to fire both with and without groundwater flow, and separate the relative influence of changes to the water and energy balances on active layer thickness. Our results show that mineral soil porosity, which influences the bulk subsurface thermal conductivity, is a key parameter controlling active layer response to fire in both the absence and presence of groundwater flow. However, neglecting groundwater flow increases the perceived importance of subsurface thermal properties, such as the thermal conductivity of soil solids, and decreases the perceived importance of hydrologic properties, such as the soil permeability. Furthermore, we demonstrate that changes to the energy balance (increased soil temperature) drive increased active layer thickness following fire, while changes to the water balance (decreased groundwater recharge) lead to reduced landscape-scale variability in active layer thickness and groundwater discharge to surface water features such as streams. These results indicate that explicit consideration of groundwater flow is critical to understanding how permafrost environments respond to fire.</p>", "DOI": "10.31223/osf.io/27s3z", "type": "posted-content", "created": {"date-parts": [[2018, 7, 2]], "date-time": "2018-07-02T11:37:30Z", "timestamp": 1530531450000}, "source": "Crossref", "is-referenced-by-count": 0, "title": ["Groundwater controls on post-fire permafrost thaw: Water and energy balance effects"], "prefix": "10.31219", "author": [{"ORCID": "http://orcid.org/0000-0002-8735-5757", "authenticated-orcid": true, "given": "Samuel C", "family": "Zipper", "affiliation": []}, {"given": "Pierrick", "family": "Lamontagne-Halle", "affiliation": []}, {"given": "Jeffrey M.", "family": "McKenzie", "affiliation": []}, {"given": "Adrian", "family": "Rocha", "affiliation": []}], "member": "15934", "container-title": [], "original-title": [], "deposited": {"date-parts": [[2018, 10, 13]], "date-time": "2018-10-13T16:45:57Z", "timestamp": 1539449157000}, "score": null, "subtitle": [], "short-title": [], "issued": {"date-parts": [[2018, 2, 22]]}, "references-count": 0, "URL": "http://dx.doi.org/10.31223/osf.io/27s3z", "relation": {"is-preprint-of": [{"id-type": "doi", "id": "10.1029/2018JF004611", "asserted-by": "subject"}]}},

2021-02 snapshot {"indexed": {"date-parts": [[2020, 10, 5]], "date-time": "2020-10-05T20:12:30Z", "timestamp": 1601928750507}, "posted": {"date-parts": [[2018, 2, 22]]}, "group-title": "Physical Sciences and Mathematics", "reference-count": 0, "publisher": "California Digital Library (CDL)", "license": [{"URL": "https://creativecommons.org/licenses/by/4.0/legalcode", "start": {"date-parts": [[2018, 2, 22]], "date-time": "2018-02-22T00:00:00Z", "timestamp": 1519257600000}, "delay-in-days": 0, "content-version": "unspecified"}], "content-domain": {"domain": [], "crossmark-restriction": false}, "short-container-title": [], "accepted": {"date-parts": [[2018, 2, 22]]}, "DOI": "10.31223/osf.io/27s3z", "type": "posted-content", "created": {"date-parts": [[2018, 7, 2]], "date-time": "2018-07-02T11:37:30Z", "timestamp": 1530531450000}, "source": "Crossref", "is-referenced-by-count": 0, "title": ["Groundwater controls on post-fire permafrost thaw: Water and energy balance effects"], "prefix": "10.31223", "author": [{"ORCID": "http://orcid.org/0000-0002-8735-5757", "authenticated-orcid": false, "given": "Samuel", "family": "Zipper", "affiliation": []}, {"given": "Pierrick", "family": "Lamontagne-Halle", "affiliation": []}, {"given": "Jeffrey", "family": "McKenzie", "affiliation": []}, {"given": "Adrian", "family": "Rocha", "affiliation": []}], "member": "6438", "container-title": [], "original-title": [], "deposited": {"date-parts": [[2020, 10, 5]], "date-time": "2020-10-05T19:52:04Z", "timestamp": 1601927524000}, "score": null, "subtitle": [], "short-title": [], "issued": {"date-parts": [[2018, 2, 22]]}, "references-count": 0, "URL": "http://dx.doi.org/10.31223/osf.io/27s3z", "relation": {}},

[mariagould]

This has been addressed via https://trello.com/c/mVECMluo/103-crossref-metadata-for-some-eartharxiv-preprints-missing