NITROGEN MINERALIZATION ACROSS A CLIMOSEQUENCE IN THE PACIFIC-NORTHWEST

Nitrogen fertilizer recommendations could be improved by better estima tes of N mineralized (N-min) from soil organic matter. Application of more or less N than required by the plant can result in detrimental ef fects on plant nutrition, the environment and producer economics. A ra nge of soils spanning a climosequence (< 250 to > 700 mm annual precip itation), were sampled, in 20 cm depth increments, to evaluate Nmin al ong an 80 km transect in northeastern Oregon. Soils were incubated at 25 degrees C with or without addition of wheat residue, for a maximum of 112 d. In 112 d, cropped soils (0-20 cm) mineralized from 28 to 61 mg N kg(-1), depending on the annual precipitation at the sampling sit e. Uncultivated silt loam soils at paired sampling sites, mineralized twice as much N at moderate and high rainfall sites, as did cultivated silt loam soils. Residue addition resulted in net N immobilization, a nd decreased the total amount of N-min an average of 33% in 112 d for both cropped and native soils. Net mineralization with depth in drylan d native soils was greater than in cropped soils. Published by Elsevie r Science Ltd.