Yu, Lu; Homyak, Peter M.; Kang, Xiaoxi; Brookes, Philip C.; Ye, Yikai; Lin, Yeneng; Muhammad, Afzal; Xu, Jianming

doi:10.1007/s00374-019-01410-6

Results

Title: Changes in abundance and composition of nitrifying communities in barley (Hordeum vulgare L.) rhizosphere and bulk soils over the growth period following combined biochar and urea amendment.
Authors: Yu, Lu; Homyak, Peter M.; Kang, Xiaoxi; Brookes, Philip C.; Ye, Yikai; Lin, Yeneng; Muhammad, Afzal; Xu, Jianming
Abstract: To understand the effects of biochar and urea on soil N availability and plant growth, we conducted a pot experiment growing barley (Hordeum vulgare L.) under six treatments: control (N0), soil with 30 g kg−1 biochar (N0B), soil with 0.23 g kg−1 urea (N1), soil with 0.23 g kg−1 urea and 30 g kg−1 biochar (N1B), soil with 0.46 g kg−1 urea (N2), and soil with 0.46 g kg−1 urea and 30 g kg−1 biochar (N2B). The nitrifying community abundance and compositions in rhizosphere and bulk soils were analyzed using quantitative polymerase chain reaction (qPCR) and amplicon-based Illumina Hiseq sequencing. Adding urea with biochar (N1B) produced the greatest increase in above- and belowground plant biomass, followed by doubling the amount of urea with biochar (N2B); both treatments raised pH (p < 0.001) and lowered extractable N in the rhizosphere (p < 0.05). N1B treatment produced the greatest increase in ammonia-oxidizing bacteria (AOB) amoA gene copies, presumably because the combined amendment raised soil pH, which favored AOB access to NH4+. Nitrifier sequences were selected after blasting with reported nitrifiers in NCBI (similarity ≥ 97%). Nitrosospira dominated AOB communities during the plant seedling stage; however, during the mature stage, Nitrosomonas dominated over Nitrosospira and the nitrite-oxidizing bacteria (NOB) community became diverse. Redundancy analysis indicated that nitrifying community composition was affected by multiple soil properties, including N availability (i.e., exchangeable NH4+ and NO3−) and soil chemistry (i.e., pH, dissolved organic C, and exchangeable base cations). Our research suggests a positive application of combining biochar with urea in improving N bioavailability and promoting plant growth in the acidic soil.
Subjects: BARLEY; UREA as fertilizer; BIOCHAR; SOIL amendments; PLANT biomass; UREA; ACID soils
Publication: Biology & Fertility of Soils, 2020, Vol 56, Issue 2, p169
ISSN: 0178-2762
Publication type: Academic Journal
DOI: 10.1007/s00374-019-01410-6

Changes in abundance and composition of nitrifying communities in barley (Hordeum vulgare L.) rhizosphere and bulk soils over the growth period following combined biochar and urea amendment.

Yu, Lu; Homyak, Peter M.; Kang, Xiaoxi; Brookes, Philip C.; Ye, Yikai; Lin, Yeneng; Muhammad, Afzal; Xu, Jianming

BARLEY; UREA as fertilizer; BIOCHAR; SOIL amendments; PLANT biomass; UREA; ACID soils

Biology & Fertility of Soils, 2020, Vol 56, Issue 2, p169

0178-2762

Academic Journal

10.1007/s00374-019-01410-6