Premium
Subsoil phosphorus is affected by fertilization regime in long‐term agricultural experimental trials
Author(s) -
Bauke S. L.,
von Sperber C.,
Tamburini F.,
Gocke M. I.,
Honermeier B.,
Schweitzer K.,
Baumecker M.,
Don A.,
SandhageHofmann A.,
Amelung W.
Publication year - 2018
Publication title -
european journal of soil science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.244
H-Index - 111
eISSN - 1365-2389
pISSN - 1351-0754
DOI - 10.1111/ejss.12516
Subject(s) - subsoil , fertilizer , phosphorus , topsoil , loam , agronomy , arable land , nutrient , chemistry , zoology , environmental science , soil water , agriculture , soil science , ecology , biology , organic chemistry
Summary Arable subsoils store large amounts of phosphorus (P); however, it is unclear to what extent, and under which conditions, subsoil resources might supplement crop P acquisition. Here, we hypothesized that (i) insufficient supply of P in topsoil promotes P acquisition from subsoil and (ii) subsoil P cycling is regulated by nitrogen (N) supply. We sampled two German long‐term fertilizer trials in Thyrow (sandy soil) and Gießen (loamy‐clayey soil) to 100‐cm depth. Treatments received either NPK, NK or PK fertilizer for > 60 years. We assessed soil inorganic (P i ) and organic (P o ) P pools following Hedley sequential extraction, and the oxygen isotopic composition of HCl‐extractable phosphate ( δ 18 O HCl‐P ), which differentiates P from primary and secondary (previously biologically cycled) minerals. We found that in the Hedley sequential extraction subsoil resin‐P stocks (30–100 cm) in NK plots were 60% (Thyrow) and 8% (Gießen) less than those in NPK plots. Subsoil HCl P i stocks in NK exceeded those of NPK plots by 70% in Thyrow, but not in Gießen. The NK treatments showed significantly smaller subsoil δ 18 O HCl‐P values than NPK treatments, indicating a predominance of primary (not biologically cycled) minerals and refuting our hypothesis that P deficiency promotes P acquisition from primary minerals. Under N‐limiting conditions, subsoil resin‐P stocks exceeded those under NPK fertilizer by 117% (Thyrow) and 22% (Gießen), supporting our second hypothesis. We conclude that an efficient use of subsoil P resources is achieved only when nutrient supply in arable topsoils is sufficient. Highlights Long‐term N and P fertilization promotes use of P from subsoil (> 30-cm depth) Subsoil stocks of resin P were less in NK than NPK fertilized plots Elevated δ 18 O HCl‐P in the subsoil of NPK plots indicates effects by enzymatic activity Small δ 18 O HCl‐P values in the subsoil of NK plots indicate a predominance of primary minerals