SELECTION OF REFERENCE PLANTS FOR N-15 NATURAL-ABUNDANCE ASSESSMENT OF N-2 FIXATION BY CROP AND PASTURE LEGUMES IU SOUTH-WEST AUSTRALIA

The N-15 natural abundance (delta(15)N) of the shoot total N of a rang e of non-Nz fixing potential reference species was compared with that of nodulated field pea (Pisum sativum L.), narrow leafed lupin (Lupinu s angustifolius L.) or subterranean clover (Trofolium subterraneum L.) across a range of field sites, to which N fertilizers had not been ap plied in the season of study. Shoot delta(15)N values of reference spe cies lay mostly within the range from +3 to +5 degrees and there was s ome evidence of lower delta(15)N values in gramineaceous than dicotyle donous non-legume species. Continuous sampling within crops of each le gume showed delta(15)N values to differ consistently between and withi n potential reference species through the season. The delta(15)N value s of seedlings of four non legume species in a lupin crop were closer to that of soil NO3-N (delta(15)N = 4.2%) than soil NH4-N (delta(15)N = 7.9%). Shoot delta(15)N values of non-nodulated pea, lupin and subte rranean clover, and a range of possible reference species all sand-cul tured on a defined nitrate source (delta(15)N = 7.5 degrees), suggeste d little or no discrimination during utilization of nitrate. However, when four candidate reference species were sand cultured with nodulate d actively fixing subterranean clover on the same nitrate source, the delta(15)N of the ryegrass was lowered significantly below that of the NO3. Field plot comparisons of nine potential reference species with nodulated field pea showed certain species to resemble field pea more closely than others in terms of the delta(15)N value of their shoots. Reference plants sampled within or well outside the rooting zone of an actively fixing legume (subterranean clover, field pea or lupin) show ed significantly lower shoot delta(15)N of mixed grass components when harvested in root contact with, as opposed to well distant from, subt erranean clover. A similar effect was observed for barley within v. ou tside the rooting zone of pea, but no such effects were observed betwe en capeweed and subterranean clover, pea and radish, or for any of fiv e reference plants matched with lupin. The data are utilized to select appropriate reference plants for field assessments of Nz fixation und er south-west Australian conditions.