Abstract
Simple SummaryPlantain (Plantago lanceolata) has emerged as a forage with the ability to reduce nitrogen (N) losses, in particular N leaching, from grazing dairy systems. For farmers to confidently incorporate plantain into their farms, research needs to demonstrate that these environmental benefits sustain similar production and farm profit than traditional ryegrass (Lolium perenne)–white clover (Trifolium repens, wc)-based pasture. The effect of changing the cows’ diet to plantain-based pastures was evaluated over two lactation seasons in comparison to ryegrass–wc pastures. Cows grazing plantain-based pastures produced the same milk solids production, but a urine with a lower N concentration when compared to ryegrass–wc pastures. Plantain reduced the urinary N loads from individual urine patches via higher urine volume and reduced the total N loading onto pastures via a lower urinary N excretion to mitigate the N leaching losses from grazed pastures. Plantain pastures could be employed by farmers to reduce the nitrate leaching from dairy farms.The use of plantain pasture in dairy systems can potentially reduce nitrogen (N) leaching losses via the lower N concentration in the urine (UNc) of cows. Reducing the urinary N load while cows graze pastures can reduce the risk of N leaching losses from urine patches. Research needs to demonstrate that these environmental benefits are not at the expense of milk production and farm profit. Three groups of 20 cows grazed in the following three pasture treatments: (i) plantain, (ii) plantain–clover mix (plantain, red [Trifolium pratense] and white clover), or (iii) ryegrass-white clover (wc) pastures, from spring to autumn for two years. Each year, pasture intake, diet quality, milk production and animal N (milk and urine) excretion were evaluated in spring, summer, and autumn. The cows grazing the plantain and plantain–clover mix pastures produced similar milk solids as cows grazing ryegrass–wc pasture but reduced their UNc during summer and autumn, when compared to those grazing the plantain–clover mix and ryegrass–wc pastures. Plantain reduced urinary N loads onto pastures by a greater number of urine patches with lower urinary N loading rates. The results demonstrate that plantain pastures do not diminish milk solids production from cows, and the lower UNc from summer to autumn could reduce N being lost to the environment.
Highlights
New Zealand (NZ) pastoral farmers are committed to adopt farming practices that improve the quality of surface and ground waters draining their land
In dairy systems, based on grazing ryegrass (Lolium perenne)–white clover (Trifolium repens) pastures, the largest contributor to NO3− leaching is the surplus of dietary N in the pasture relative to the cow’s requirements, with the surplus N excreted onto pastures via the urine of the cow [2]
The crude protein (CP) concentration in plantain pastures was lower than ryegrass–wc pastures in spring 2017, while the CP concentration in the plantain– clover mix pastures was greater than plantain and ryegrass–wc pastures in spring, early and late summer of the 2017/2018 season
Summary
New Zealand (NZ) pastoral farmers are committed to adopt farming practices that improve the quality of surface and ground waters draining their land To achieve this environmental target for freshwater quality, dairy systems need to reduce nitrogen (N) loss, principally via nitrate (NO3−) leaching from grazed pastures [1]. Cow urination produces highly concentrated N patches, with N loading rates that exceed the pasture’s ability for N uptake, leaving a mineral N surplus in the soil that contributes to NO3− leaching during periods of soil drainage [6]. Reducing both the concentration of N in urine (loading rate) and/or the total N loading into the soil will lead to a reduced risk of nitrate-N leaching from pastoral systems [5,6]. A longer-term farm system experiment over 2 years showed milk production was unaffected by including plantain in the diet, and lower urinary N concentrations were predicted but were not measured [10]
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