Spatio-temporal variabilities of soil phosphorus pool and phosphorus uptake with maize stover biochar amendment for 5 ye
- PDF / 566,693 Bytes
- 12 Pages / 595.276 x 790.866 pts Page_size
- 58 Downloads / 171 Views
RESEARCH ARTICLE
Spatio-temporal variabilities of soil phosphorus pool and phosphorus uptake with maize stover biochar amendment for 5 years of maize Dianyun Cao 1,2 & Wenfu Chen 1,2 & Ping Yang 3,4 & Yu Lan 1,2 & Daquan Sun 5,6 Received: 4 March 2020 / Accepted: 11 June 2020 # Springer-Verlag GmbH Germany, part of Springer Nature 2020
Abstract Phosphorus reuse by application of biochar is a recent concept that needs to be supported by long-term field data. To monitor biochar’s long-term effects on P turnover, one-off biochar was applied in 2013 with mineral NPK fertilizers being applied every year since then. Biochar application rates included 0 t ha−1 (CK), 15.75 t ha−1 (BC1), 31.5 t ha−1 (BC2), and 47.25 t ha−1 (BC3). Over the 5 years’ field experiment, P distribution in soil profile, inorganic and organic P fractions in bulk, and rhizosphere soil and maize P uptake were determined. The results showed that biochar reduced the inorganic P fractions (Ca2-P, Ca8-P, Al-P, Fe-P and O-P by 4.8–33.7%, 8.8–59.0%, 13.7–28.6%, 8.4–17.6%, and 3.3–25.5%, respectively), and increased organic P fractions (MLOP and HROP by 67.2–11.6% and 18.8–87.7%, respectively) in bulk soil, while in rhizosphere soil, Fe-P and MLOP were decreased by 13.4–34.5% and 67.2–111.6%, respectively, in 2017. After the application of biochar for 5 years, moderately labile organic phosphorus (MLOP), moderately resistant organic phosphorus (MROP), and highly resistant organic phosphorus (HROP) with different biochar treatments were enhanced by 12.8–42.7%, 20.1–48.0%, and 5.5–66.6%, respectively, but Ca8P, Al-P, O-P, and Ca10-P were all decreased by 18.6–24.9%, 16.4–21.4%, and 3.3–23.48%, respectively. Total P storage in 0– 100 cm was declined by biochar. Increases in maize P uptake in the stover (38.6–71.3%) and grain (20.9–25.5%) were occurred after 31.5 t ha−1 and 47.25 t ha−1 biochar addition. To sum up, biochar is found to regulate the distribution, storage, and transformation of soil P, which lead to increase in maize P uptake. Keywords Biochar . P reuse . Phosphorus fractions . P storage . P uptake Responsible Editor: Zhihong Xu * Ping Yang [email protected] * Yu Lan [email protected] 1
Agronomy College, Shenyang Agricultural University, Shenyang 110866, China
2
Liaoning Biochar Engineering & Technology Research Center, Shenyang 110866, China
3
College of Information and Electrical Engineering, Shenyang Agricultural University, Shenyang 110866, China
4
Liaoning Agricultural Information Technology Center, Shenyang 110866, China
5
6
College of Resources and Environmental Engineering, Ludong University, Yantai 264025, China Biology Center, Institute of Soil Biology & SoWa Research Infrastructure, Czech Academy of Science, Na Sadkach 7, 37005 Ceske Budejovice, Czech Republic
Abbreviations Ca2-P Dicalcium phosphate dehydrate Ca8-P Octocalcium phosphate Ca10-P Hydroxyapatite Al-P Aluminum phosphate Fe-P Iron phosphate O-P Occluded phosphate LOP Labile organic phosphorus MLOP Moderately labile organic phosphorus MROP Moderately re
Data Loading...
