Journal
AGRICULTURE ECOSYSTEMS & ENVIRONMENT
Volume 207, Issue -, Pages 192-202Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.agee.2015.04.008
Keywords
Phosphorus loss; Nutrient transfer continuum; Water quality; Mitigation measures; Nutrient management; Agricultural catchment; Comparative economics
Funding
- Department of Agriculture, Food and Marine
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Phosphorus (P) loss from soils to water can be a major pressure on freshwater quality and dairy farming, with higher animal stocking rates, may lead to potentially greater nutrient source pressures. In many countries with intensive agriculture, regulation of P management aims to minimise these losses. This study examined the P transfer continuum, from source to impact, in a dairy-dominated, highly stocked, grassland catchment with free-draining soils over three years. The aim was to measure the effects of P source management and regulation on P transfer across the nutrient transfer continuum and subsequent water quality and agro-economic impacts. Reduced P source pressure was indicated by: (a) lower average farm-gate P balances (2.4 kg ha(-1) yr(-1)), higher P use efficiencies (89%) and lower inorganic fertilizer P use (5.2 kg ha(-1) yr(-1)) relative to previous studies; (b) almost no recorded P application during the winter closed period, when applications were prohibited, to avoid incidental transfers; and (c) decreased proportions of soils with excessive P concentrations (32-24%). Concurrently, production and profitability remained comparable with the top 10% of dairy farmers nationally with milk outputs of 14,5851 ha(-1), and gross margins of (sic) 3130 ha(-1). Whilst there was some indication of a response in P delivery in surface water with declines in quick flow and interflow pathway P concentrations during the winter closed period for P application, delayed baseflows in the wetter third year resulted in elevated P concentrations for long durations and there were no clear trends of improving stream biological quality. This suggests a variable response to policy measures between P source pressure and delivery/impact where the strength of any observable trend is greater closer to the source end of the nutrient transfer continuum and a time lag occurs at the other end. Policy monitoring and assessment efforts will need to be cognisant of this. (C) 2015 The Authors. Published by Elsevier B.V.
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