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Montoya J P,
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Gehlen H.,
Swerhone G.D.W., Van Kessel C.
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N2 fixation in irrigated lucerne grown for hay
Brockwell J.,
Gault R.R.,
Peoples M.B.,
Turner G.L.,
Lilley D.M., Bergersen F.J.
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Brockwell J.,
Dunn B. W.,
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Hebb Diane M.,
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