Soil quality response to cover crops and amendments in a vineyard in Nova Scotia, Canada
Messiga, A.J., Sharifi, M., Hammermeister, A., Gallant, K., Fuller, K., Tango, M. (2015). Soil quality response to cover crops and amendments in a vineyard in Nova Scotia, Canada, 188 6-14. http://dx.doi.org/10.1016/j.scienta.2015.02.041
© 2015 Elsevier B.V. The effects of cover crop mixtures combined with organic and industrial wastes on selected soil properties were assessed in a vineyard in Eastern Canada. The experimental treatments were randomly arranged in a nested design with three replicates. Four alleyway cover crop mixtures [control with no cover crop (CONT), oats+pea+hairy vetch (OPV), oats underseeded with red clover (ORCl), and timothy+alsike+red clover (TM)] were applied to main plots. Five fertility treatments [fertilizer without N (NDEF), full synthetic fertilizer (FERT), wood ash (WA), municipal solid food waste (MSFW), and mussel sediment (MS)] were assigned to sub-plots. Changes in selected soil quality (0-15cm) were assessed at the beginning of the growing season (May 9, 2011 and April 28, 2012), at bloom in early-July (July 06, 2011 and 2012), and at harvest in late-October (October 31, 2011 and October 20, 2012). At bloom, soil mineral N was 23.56kgha<sup>-1</sup> for OPV and 20.68kgha<sup>-1</sup> for ORCl, but only 16.38 kg ha<sup>-1</sup> for CONT and 12.53 kg ha<sup>-1</sup> for TM. At harvest, soil mineral N was 21.95kgha<sup>-1</sup> for ORCl, but only 15.43 kg ha<sup>-1</sup> for OPV and TM and 9.10kgha<sup>-1</sup> for CONT. Soil mineral N was mainly in the form of NO<inf>3</inf><sup>-</sup>-N until bloom, but at harvest majority of soil mineral N was consisted of NH<inf>4</inf><sup>+</sup>-N. After one year of experiment, the three organic and industrial amendments maintained greater soil pH (7.34 for MSFW and 7.35 for WA) and Mehlich-3 extractable P (399kgP<inf>M3</inf>ha<sup>-1</sup> for MSFW and 333 kg P<inf>M3</inf>ha<sup>-1</sup> for WA) compared with FERT (pH 7.17; 306 kg P<inf>M3</inf>ha<sup>-1</sup>) and NDEF (pH 7.12; 288kgP<inf>M3</inf>ha<sup>-1</sup>) treatments. After two years of experiment, the combination of cover crop×amendment improved soil organic-C by 8.8% and 10.6% and -N by 8.1% and 9.8% compared with amendment alone and cover crop×FERT treatment, respectively. Potentially mineralizable N estimated by UV-absorbance of NaHCO<inf>3</inf> extraction was greater under ORCl (0.79 abs) compared with the other cover crops (0.69 abs). The microbial biomass C was 205kgha<sup>-1</sup> under MSFW and 212kgha<sup>-1</sup> under WA, but only 168 kg ha<sup>-1</sup> under NDEF, 125 kg ha<sup>-1</sup> under FERT. The combination of cover crops and organic or industrial wastes provide comparable soil mineral N supply and available P with fertilized treatments while improving soil physical and biological properties and overall soil quality in this vineyard production system.
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