Status: Under development, Date: 2025/07/08 10:18, Version: 001

As data can only be embedded in semantic frameworks when it is described with rich metadata, the first step toward a standardized approach for implementing semantic resources is for data producers to enrich data with metadata, and as part of this for data producers or given communities to agree on which metadata should be provided by data producers and required by data infrastructures. Only the standardized use of metadata enable annotation with identifiable terms from recognized controlled vocabularies, which allows machines to interpret and connect data across disciplinary and institutional boundaries. Since the needs for these metadata can vary greatly between research communities, data infrastructures, and use cases, we recommend using existing metadata schemas commonly used in the respective communities, data infrastructures, and use cases as a guide. Below, we will list just a few of the many possible ones. In addition, there are generally applicable schemas that can be recommended.

All data producers in Helmholtz Earth & Environment should enrich their datasets with rich, standardized metadata at the time of dataset creation, submission to repositories or publication. This should be done following metadata categories specified in established general or discipline-specific metadata schemas or workflows (see also I2.0 Define exchange format).

Parent: S0

Dependent: S3.0

Other: related to I2.0

About

A metadata schema defines the structure, content, and semantics of metadata elements used to describe a dataset. It specifies what metadata should be captured, how it should be named, and in which format it should be stored. Schemas often include controlled vocabularies and formal structures, allowing metadata to be understood both by humans and machines. Widely used schemas include ISO 19115 for geospatial data, DataCite Metadata Schema for citation metadata, and Dublin Core for general resource description.

History

Current Use of Metadata Standards in Earth & Environmental Sciences

Across Helmholtz Earth and Environmental sciences, metadata standards are applied in diverse repositories and infrastructures, to name just a few of them:

• PANGAEA (AWI/MARUM) applies metadata workflows combining descriptive (e.g. dataset titles, abstracts, parameters, methods), structural (e.g. campaign and event hierarchies), and administrative (e.g. file formats, DOIs, licenses) elements. PANGAEA uses ISO 19115, DIF, Dublin Core, and its own metadata schema ensuring interoperability across geosciences and marine research (https://wiki.pangaea.de/wiki/Metadata).
• GFZ Data Services (GFZ Potsdam) supports metadata based on ISO 19115, NASA GCMD DIF, and DataCite, with its own metadata entry system providing templates and controlled vocabularies for FAIR compliance.
• Helmholtz Coastal Data Center (HCDC) relies on ISO 19115 and NetCDF CF Conventions, and in some cases OGC SensorML, to capture observational and sensor-based data.
• DataCite Metadata Schema provides the global backbone for dataset citation and retrieval (DataCite Schema

Motivation

Providing sufficient enrichment of data with metadata forms the basis for the implementation of standardized semantic concepts.

(quality of content, limitations, interoperability, sustainability: expected future dissemination / technical availability / funding)

Bibliographic Metadata/(Administrative metadata?)

It is recommended that for the accurate and consistent identification of a resource for citation and retrieval purposes, each published dataset should be provided with the core metadata elements defined in the most up-to-date DataCite Metadata Schema (see https://schema.datacite.org/).

Community and Repository Alignment

When selecting metadata schemas, data producers should always consider the intended purpose of the metadata:

1. If datasets are to be published in repositories such as PANGAEA or GFZ Data Services, metadata must follow repository-specific workflows and schemas.
2. If datasets need to be interoperable within a scientific community (e.g., oceanography, climate science), community standards like CF Conventions, NetCDF Climate & Forecast metadata, or GCMD keywords should be adopted.
3. If datasets must be integrated into international portals and infrastructures, metadata must be aligned with globally recognized schemas such as ISO 19115 or DataCite.