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Belowground Response of a Bahiagrass Pasture to Long-Term Elevated [CO 2 ] and Soil Fertility Management.

G Brett RunionStephen A PriorH Allen Torbert
Published in: Plants (Basel, Switzerland) (2024)
Effects of rising atmospheric CO 2 concentration [CO 2 ] on pastures and grazing lands are beginning to be researched, but these important systems remain understudied compared to other agronomic and forest ecosystems. Therefore, we conducted a long-term (2005-2015) study of bahiagrass ( Paspalum notatum Flüggé) response to elevated [CO 2 ] and fertility management. The study was conducted at the USDA-ARS, National Soil Dynamics Laboratory open-top field chamber facility, Auburn, AL. A newly established bahiagrass pasture was exposed to either ambient or elevated (ambient + 200 µmol mol -1 ) [CO 2 ]. Following one year of pasture establishment, half the plots received a fertilizer treatment [N at 90 kg ha -1 three times yearly plus P, K, and lime as recommended by soil testing]; the remaining plots received no fertilization. These treatments were implemented to represent managed (M) and unmanaged (U) pastures; both are common in the southeastern US. Root cores (0-60 cm depth) were collected annually in October and processed using standard procedures. Fertility additions consistently increased both root length density (53.8%) and root dry weight density (68.2%) compared to unmanaged plots, but these root variables were generally unaffected by either [CO 2 ] or its interaction with management. The results suggest that southern bahiagrass pastures could benefit greatly from fertilizer additions. However, bahiagrass pasture root growth is unlikely to be greatly affected by rising atmospheric [CO 2 ], at least by those levels expected during this century.
Keyphrases
  • particulate matter
  • air pollution
  • climate change
  • dairy cows
  • body mass index
  • minimally invasive
  • risk assessment
  • quality improvement
  • weight loss
  • childhood cancer
  • young adults
  • body weight