Findings in chapter 6 of Climate Change Impacts in the United States: The Third National Climate Assessment

Search
nca3 report
- report : nca3
- chapters
- figures
- tables
- findings
- references
publications
- report : nca3
- reports
- figures
- images
- books
- journals
- articles
- web pages
- platforms
- instruments
- datasets
- models
- scenarios
- lexicons
contributors
- people
- organizations
You are viewing /report/nca3/chapter/agriculture/finding/stress-lowers-agriculture-production in Turtle
Alternatives : HTML JSON YAML text N-Triples JSON Triples RDF+XML RDF+JSON Graphviz SVG Raw
@prefix dcterms: <http://purl.org/dc/terms/> .
@prefix xsd: <http://www.w3.org/2001/XMLSchema#> .
@prefix gcis: <http://data.globalchange.gov/gcis.owl#> .
@prefix cito: <http://purl.org/spar/cito/> .
@prefix biro: <http://purl.org/spar/biro/> .

<http://52.38.26.42:8080/report/nca3/chapter/agriculture/finding/stress-lowers-agriculture-production>
   dcterms:identifier "stress-lowers-agriculture-production";
   gcis:findingNumber "6.2"^^xsd:string;
   gcis:findingStatement "Many agricultural regions will experience declines in crop and livestock production from increased stress due to weeds, diseases, insect pests, and other climate change induced stresses."^^xsd:string;
   gcis:isFindingOf <http://52.38.26.42:8080/report/nca3/chapter/agriculture>;
   gcis:isFindingOf <http://52.38.26.42:8080/report/nca3>;

## Properties of the finding:
   gcis:findingProcess "A central component of the process was the development of a foundational technical input report (TIR), âClimate Change and Agriculture in the United States: An Assessment of Effects and Potential for Adaptationâ. A public session conducted as part of the Tri-Societies (https://www.acsmeetings.org/home) meeting held in San Antonio, Texas, on Oct. 16-19, 2011, provided input to this report. \r\nThe report team engaged in multiple technical discussions via teleconference, which included careful review of the foundational TIR and of approximately 56 additional technical inputs provided by the public, as well as other published literature and professional judgment. Discussions were followed by expert deliberation of draft key messages by the authors and targeted consultation with additional experts by the lead author of each message."^^xsd:string;
   
   gcis:descriptionOfEvidenceBase "The key message and supporting text summarizes extensive evidence documented in the Agriculture TIR, âClimate Change and Agriculture in the United States: An Assessment of Effects and Potential for Adaptationâ. Additional Technical Input Reports (56) on a wide range of topics were also received and reviewed as part of the Federal Register Notice solicitation for public input. \r\nNumerous peer-reviewed publications describe the direct effects of climate on the ecological systems within which crop and livestock operations occur. Many weeds respond more strongly to CO2 than do crops, and it is believed that the range of many diseases and pests (for both crop and livestock) will expand under warming conditions. Pests may have increased overwinter survival and fit more generations into a single year, which may also facilitate faster evolution of pesticide resistance. Changing patterns of pressure from weeds, other pests, and disease can affect crop and livestock production in ways that may be costly or challenging to address.\r\n"^^xsd:string;
   
   gcis:assessmentOfConfidenceBasedOnEvidence "The scientific literature is beginning to emerge; however, there are still some unknowns about the effects of biotic stresses, and there may well be emergent âsurprisesâ resulting from departures from past ecological equilibria. Confidence is therefore judged to be medium that many agricultural regions will experience declines in animal and plant production from increased stress due to weeds, diseases, insect pests, and other climate change induced stresses. "^^xsd:string;
   
   gcis:newInformationAndRemainingUncertainties "Important new evidence (cited above) confirmed many of the findings in the past Synthesis and Assessment Product on agriculture, which informed the 2009 National Climate Assessment.\r\nIn addition to extant species already in the U.S., exotic weeds, diseases, and pests have particular significance in that: 1) they can often be invasive (that is, arrive without normal biological/ecological controls) and highly damaging; 2) with increasing international trade, there are numerous high-threat, high-impact species that will arrive on commodities from areas where some species even now are barely known to modern science, but which have the potential to emerge under a changed climate regime to pose significant risk of establishment in the U.S. and economic loss; and 3) can take advantage of âdisturbances,â where climate variability acts as an additional ecological disturbance. Improved models and observational data related to how many agricultural regions will experience declines in animal and plant production from increased stress due to weeds, diseases, insect pests, and other climate change induced stresses will need to be developed. \r\nA key issue is the extent of the interaction between components of the natural biological system (for example, pests) and the economic biological system (for example, crop or animal). For insects, increased populations are a factor; however, their effect on the plant may be dependent upon the phenological stage of the plant when the insect is at specific phenological stages.\r\nTo enhance our understanding of these issues will require a concerted effort to begin to quantify the interactions of pests and the economic crop or livestock system and how each system and their interactions are affected by climate.\r\n"^^xsd:string;

   a gcis:Finding .

## This finding cites the following entities:


<http://52.38.26.42:8080/report/nca3/chapter/agriculture/finding/stress-lowers-agriculture-production>
   cito:cites <http://52.38.26.42:8080/article/10.1614/0043-1745(2001)049%5B0622:CICABA%5D2.0.CO;2>;
   biro:references <http://52.38.26.42:8080/reference/c1a43145-46ee-4b21-865e-6ed5b98c2f0d>.

<http://52.38.26.42:8080/report/nca3/chapter/agriculture/finding/stress-lowers-agriculture-production>
   cito:cites <http://52.38.26.42:8080/article/10.1890/110145>;
   biro:references <http://52.38.26.42:8080/reference/4986bca7-f0d4-4926-b05d-a005bb63a1f3>.

<http://52.38.26.42:8080/report/nca3/chapter/agriculture/finding/stress-lowers-agriculture-production>
   cito:cites <http://52.38.26.42:8080/report/ccsp-sap-4_3-2008>;
   biro:references <http://52.38.26.42:8080/reference/76db17ce-354b-4f0c-ad10-3e701c0387fc>.

<http://52.38.26.42:8080/report/nca3/chapter/agriculture/finding/stress-lowers-agriculture-production>
   cito:cites <http://52.38.26.42:8080/article/10.2134/agronj2010.0303>;
   biro:references <http://52.38.26.42:8080/reference/a2704ef3-5be4-41ee-8dfa-4c82e416a292>.

<http://52.38.26.42:8080/report/nca3/chapter/agriculture/finding/stress-lowers-agriculture-production>
   cito:cites <http://52.38.26.42:8080/article/10.1093/jxb/erg027>;
   biro:references <http://52.38.26.42:8080/reference/b8d97f08-9215-4ff3-b2fe-76b4e8eb0170>.

<http://52.38.26.42:8080/report/nca3/chapter/agriculture/finding/stress-lowers-agriculture-production>
   cito:cites <http://52.38.26.42:8080/report/usda-techbul-1935>;
   biro:references <http://52.38.26.42:8080/reference/3baf471f-751f-4d68-9227-4197fdbb6e5d>.

<http://52.38.26.42:8080/report/nca3/chapter/agriculture/finding/stress-lowers-agriculture-production>
   cito:cites <http://52.38.26.42:8080/report/nca2>;
   biro:references <http://52.38.26.42:8080/reference/e251f590-177e-4ba6-8ed1-6f68b5e54c8a>.