Dv. Mccracken et al., NITRATE LEACHING AS INFLUENCED BY COVER CROPPING AND NITROGEN-SOURCE, Soil Science Society of America journal, 58(5), 1994, pp. 1476-1483
To minimize groundwater contamination by NO3- and to maximize efficien
t crop N use, it is necessary to better characterize NO3- leaching in
various cropping systems. Our objectives were to compare the contribut
ions of hairy vetch (Vicia villosa Roth) and NH: N sources to NO3- lea
ching in corn (Zen mays L.) production, and to compare NO3- leaching l
osses in a corn production system utilizing hairy vetch as a N source
and winter cover crop with leaching losses in one utilizing an NH4+ N
source and a rye (Secale cereale L.) cover crop. Nitrogen, sometimes e
nriched with N-15, was applied to corn grown on a Maury silt loam (fin
e, mixed, mesic Typic Paleudalf) in lysimeters as vetch-or NH4+-N at r
ates;between 10.5 and 14.0 g N m(-2) yr(-1). Treatments (N source/cove
r crop) were: NH4+-N/fallow, vetch-N/fallow, NH4+-N/ rye, and vetch-N/
vetch; mean 3-yr cumulative NO3- leaching losses were 6.11, 4.85, 0.35
, and 2.51 g N m-l, respectively. Total recovery of added N-15 in leac
hate was <5% for all treatments, and the percentage of leached NO3- de
rived from labeled N sources was generally <15%. In the winter-fallow
lysimeters, effects of N source on the fraction of water input dischar
ged, concentration of NO3-, and quantity of NO3- leached varied with y
ear and time of year; differences in N-source availability and mulch e
ffects were sometimes indicated. Generally, cover crop effects were la
rger than N-source effects. The NH4+ N source/rye cover system leached
consistently less NO3- than the vetch N source/vetch cover system, ev
en though the fraction of water discharged was not consistently differ
ent.