4.5 Article

Critical Olsen P and CaCl2-P levels as related to soil properties: results from micropot experiments

期刊

SOIL USE AND MANAGEMENT
卷 31, 期 2, 页码 233-240

出版社

WILEY
DOI: 10.1111/sum.12184

关键词

Phosphorus; critical levels; Olsen P; CaCl2-P; calcareous soils; noncalcareous soils

资金

  1. Spanish Ministry of Science and Innovation [AGL2011-29893-C02-02]
  2. European Regional Development Fund

向作者/读者索取更多资源

The usefulness of soil phosphorus (P) tests used in routine soil analyses is limited by the fact that a single measurement cannot encompass all P-related factors potentially affecting plant performance. In this work, we performed micropot (15mL) experiments to test the hypothesis that the predictive value of two common soil P tests (Olsen P and CaCl2-P) can be improved by considering properties commonly measured in laboratory analyses. Forty-nine sets of soils ranging widely in properties were used for this purpose, each set consisting of samples with similar properties but differing in P status. Ryegrass and turnip were grown in a chamber for 30days in two separate experiments and their yields at harvest recorded. The critical Olsen P and CaCl2-P levels, which were taken to be those corresponding to 95% asymptotic yield as calculated from data fitted to a Mitscherlich equation, were greater for turnip than for ryegrass, probably as a result of the difference in yield (49 and 160mg dry matter/micropot on average for ryegrass and turnip, respectively) and hence in P requirements between the two species. Critical Olsen P spanned narrower ranges than critical CaCl2-P in both crops and is therefore seemingly the more robust of the two tests. Both critical P values exhibited moderate correlations with soil properties. Thus, critical Olsen P was (a) lower in soils with a medium pH - which is consistent with the fact that the bicarbonate solution method tends to overestimate plant-available P in strongly acid and calcareous soils; (b) positively correlated with pH and carbonate content in calcareous soils; and (c) uncorrelated with soil properties in noncalcareous soils. On the other hand, critical CaCl2-P in some soil groups was negatively correlated with some properties increasing the P buffering capacity of soil (e.g. Fe oxide content). Taken together, our results suggest that routinely measured soil properties help to predict critical Olsen P better than critical CaCl2-P.

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