What Is This?

This is an HTML+RDFa representation of metadata describing this Web-addressable resource.

Why Is This Important?

The property (attributes and values pairs) links on this page unveil a different kind of link, one which enables the following on HTTP networks such as the Web:

  1. Unambiguous identity for entities (aka. strong identifiers)
  2. Implicit binding of an entity and its metadata via strong identifiers
  3. Multiple metadata representations that enable a variety of presentations
  4. High precision Search and Find queries that simply use the metadata documents (by referencing entity URIs) as the query's Data Source Name

How Do I Discover Alternative Metadata Representations?

This document exposes metadata in the following formats: (X)HTML+RDFa, Turtle, N3, RDF/JSON, or RDF/XML. In the most basic form, you can simply view the (X)HTML source markup of this page, and go directly to the <head/> section which contains a <link/> tag with relationship and type properties for each format.

In addition, you can also explicitly request a desired metadata representation for a given resource via HTTP GET requests that use the entity's strong identifier as the call target.

How Can I Expose My Web Resources In This Manner?

Simply include the following in the <head/> section of your (static or dynamically generated) (X)HTML page:

<link rel="alternate" title="My Data in RDF Linked Data form"
type="application/rdf+xml"
href="http://linkeddata.uriburner.com/about/id/<this-page-URL>/>"

How Is This Related To The Linked Data Meme?

As stated above, the links in this page expose strong identifiers for its primary topic, secondary topics, attributes, and some values. These links, via implicit association, act as conduits to their metadata-bearing documents, in a variety formats.

[OpenLink Software]

About: nodeID://b30242265

An Entity of Type : Content Class, from Data Source : https://www.slideshare.net/rss/user/bu201504nahida, within Data Space : dev.restore.ovi.cnr.it:8890

  • References
  • Referenced By
body relation

  • Host-parasite relationships in plants involve interactions where a parasitic organism (the parasite) derives nutrients and sustenance from a host plant, often at the expense of the host's health. Parasites can be classified as obligate (entirely dependent on the host) or facultative (can survive independently). They may also be categorized as hemiparasites (partially dependent, performing some photosynthesis) or holoparasites (completely dependent on the host for nutrients). These interactions can lead to physiological changes in the host, reduced growth, and decreased yield, impacting agricultural productivity. Common examples include Cuscuta (dodder) and Orobanche (broomrape).
source
  • https://www.slideshare.net/rss/user/bu201504nahida
type
  • Content Class
described by
  • https://www.slideshare.net/rss/user/bu201504nahida
content
  • Host - Parasite Relationships in plants
Alternative Linked Data Views: Facets | iSPARQL | ODE     Raw Linked Data formats: CXML | CSV | RDF ( N-Triples N3/Turtle JSON XML ) | OData ( Atom JSON ) | Microdata ( JSON HTML) | JSON-LD
This material is Open Knowledge   W3C Semantic Web Technology     This material is Open Knowledge Creative Commons License Valid XHTML + RDFa
This work is licensed under a Creative Commons Attribution-Share Alike 3.0 Unported License.
OpenLink Virtuoso version 07.20.3231, on Linux (x86_64-generic_glibc25-linux-gnu), Single Edition