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Winter Wheat and Red Clover Intercrop Response to Tillage and Compost Amendment

Authors :: Blaser, Brock C.
Singer, Jeremy W.
Gibson, Lance R.
Source :: Crop Science; January 2012, Vol. 52 Issue: 1 p320-326, 7p
Publication Year :: 2012
Abstract: Frost‐seeding red clover (Trifolium pratenseL.) into winter cereals is an efficient establishment method, although performance under contrasting soil management practices remains unclear. Wheat and intercropped red clover productivity were evaluated in intensive tillage (IT), moderate tillage (MT), and no tillage (NT) with and without compost amendment in a corn (Zea maysL.)–soybean [Glycine max(L.) Merr.]–winter wheat (Triticum aestivumL.) and red clover rotation between 2005 and 2010. Wheat yields were not affected by tillage system and averaged 3.80 Mg ha−1but were 10% higher in compost amended soil compared to no compost. Red clover plant density and dry matter (DM) at cereal grain harvest averaged 127 plants m−2and 32 g m−2and were not affected by tillage or amendment treatments. Maximum wheat canopy light interception was attained in late May to early June and ranged from 84 to 91% and typically exceeded 77% light interception for at least 22 d. Red clover root DM increased on average 378% between wheat harvest and 40 d after harvest compared with a 64% average increase in red clover root length. Red clover shoot:root averaged 8.5 at wheat harvest compared with 11.2 40 d after wheat harvest. Producers using this wheat and red clover intercrop should expect no difference in wheat yield or red clover productivity when using IT, MT, or NT.