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2. It's only natural, but what does it mean?
- Collection:
- Agricultural Communications Documentation Center (ACDC)
- Contributers:
- Bopp, Suzanne B. (author)
- Format:
- Article
- Publication Date:
- 2014-08-27
- Published:
- USA
- Location:
- Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 138 Document Number: D04673
- Notes:
- Online via Drovers Cattle Network. 1 page.
3. Reuters vs. UN cancer agency: are corporate ties influencing science coverage?
- Collection:
- Agricultural Communications Documentation Center (ACDC)
- Contributers:
- Malkan, Stacy (author)
- Format:
- Article
- Publication Date:
- 2017
- Published:
- International: Fairness and Accuracy in Reporting, New York City, New York
- Location:
- Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 124 Document Number: D11204
- Notes:
- Via online. 12 pages., Article involves a Reuters reporter who has "aimed a torrent of critical reporting at the WHO's [World Health Organization of the United Nations] International Agency for Research on Cancer (IARC), portraying the group and its scientists as out of touch and unethical, and leveling accursation about conflicts of interest and suppressed information in their decision-making."
4. Settlement, development, despoilment, and recovery of the Hudson River, New York
- Collection:
- Agricultural Communications Documentation Center (ACDC)
- Contributers:
- Morton, Lois Wright (author) and Olson, Kenneth R. (author)
- Format:
- Article
- Publication Date:
- 2020-01-01
- Published:
- USA: Soil and Water Conservation Society
- Location:
- Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 202 Document Number: D12063
- Journal Title:
- Journal of Soil and Water Conservation
- Journal Title Details:
- Vol. 75, Issue 1
- Notes:
- 7 pages, via Online journal, The mid-nineteenth century Hudson River School of painting reflects artists' views of American paradise, a glorified Hudson River landscape where the disappearing wilderness, agriculture, and human settlements coexisted along the river in perfect harmony. The romantic, peaceful coexistence of nature and humans became an unsustainable illusion as the twentieth century 507 km (315 mi) Hudson River became a major transportation route to the northern and western interior of the United States (figure 1). Like many rivers throughout history, navigation of the Hudson River waters fostered tanneries, paper mills, factories, electrical plants, and other enterprises along its coastline (Rothstein 2019). Rivers, with their abundant water supply and capacity to transport raw materials and finished goods, fueled the Industrial Revolution of the 1800s, and the Hudson River was exemplary in its contributions. Settlements and industries along the Hudson River valley flourished, creating jobs, expanding communities, and bringing economic prosperity to the region and the nation. In its wake, followed an era of industrial pollution that left an ugly mark on the river celebrated for its beauty and pristine waters. In 1984, 321 km (200 mi) of the Hudson River was classified by the US Environmental Protection Agency (USEPA) as the Hudson River PCBs Superfund site—one of the largest in the country.
5. Soil organic matter content and crop yield
- Collection:
- Agricultural Communications Documentation Center (ACDC)
- Contributers:
- Lal, Rattan (author)
- Format:
- Article
- Publication Date:
- 2020-03-01
- Published:
- USA: Soil and Water Conservation Society
- Location:
- Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 202 Document Number: D12064
- Journal Title:
- Journal of Soil and Water Conservation
- Journal Title Details:
- Vol 75, Issue 2
- Notes:
- 6 pages, via Online journal, Most agricultural soils are depleted of their soil organic matter (SOM) reserves. A severe loss of SOM content may degrade soil functionality, its capacity for provisioning of essential ecosystem services, and soil health. Therefore, restoration of SOM content in soils of agroecosystems may reverse the degradation trends, enhance ecosystem services (Banwart et al. 2015), and advance Sustainable Development Goals of the United Nations. (Lal et al. 2018a). Increase in SOM content may also partially replace the use of chemical fertilizers and supplemental irrigation, while restoring the environment.