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Plant-microbe competition: does injection of isotopes of C and N into the rhizosphere effectively characterise plant use of soil N? / Hill, Paul; Jones, Davey L.
In: New Phytologist, Vol. 221, No. 2, 20.12.2018, p. 796–806.

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Hill P, Jones DL. Plant-microbe competition: does injection of isotopes of C and N into the rhizosphere effectively characterise plant use of soil N? New Phytologist. 2018 Dec 20;221(2):796–806. Epub 2018 Sept 9. doi: 10.1111/nph.15433

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TY - JOUR

T1 - Plant-microbe competition: does injection of isotopes of C and N into the rhizosphere effectively characterise plant use of soil N?

AU - Hill, Paul

AU - Jones, Davey L.

PY - 2018/12/20

Y1 - 2018/12/20

N2 - Despite considerable attention over the last 25 yr, the importance of early protein break-down products to plant nitrogen (N) nutrition remains uncertain.We used rhizosphere injection of15N-,13C- and14C-labelled inorganic N and aminoacid (L-alanine), with chase periods from 1 min to 24 h, to investigate the duration ofcompetition for amino acid between roots (Triticum aestivum) and soil microorganisms.We further investigated how microbial modification ofL-alanine influenced plant carbon(C) and N recovery.From recovery of C isotopes, intact alanine uptake was 0.2–1.3% of added. Soil microbesappeared to remove alanine from soil solution within 1 min and release enough NH4+toaccount for all plant15N recovery (over 24 h) within 5 min. Microbially generated inorganic orketo acid C accounted for < 25% of the lowest estimate of intact alanine uptake.Co-location of C and N labels appears a reasonable measure of intact uptake. Potentialinterference from microbially modified C is probably modest, but may increase with chaseperiod. Similarly, competition forL-alanine is complete within a few minutes in soil, whereasNO3added at the same rate is available for > 24 h, indicating that long chase periods biasoutcomes and fail to accurately simulate soil processes.

AB - Despite considerable attention over the last 25 yr, the importance of early protein break-down products to plant nitrogen (N) nutrition remains uncertain.We used rhizosphere injection of15N-,13C- and14C-labelled inorganic N and aminoacid (L-alanine), with chase periods from 1 min to 24 h, to investigate the duration ofcompetition for amino acid between roots (Triticum aestivum) and soil microorganisms.We further investigated how microbial modification ofL-alanine influenced plant carbon(C) and N recovery.From recovery of C isotopes, intact alanine uptake was 0.2–1.3% of added. Soil microbesappeared to remove alanine from soil solution within 1 min and release enough NH4+toaccount for all plant15N recovery (over 24 h) within 5 min. Microbially generated inorganic orketo acid C accounted for < 25% of the lowest estimate of intact alanine uptake.Co-location of C and N labels appears a reasonable measure of intact uptake. Potentialinterference from microbially modified C is probably modest, but may increase with chaseperiod. Similarly, competition forL-alanine is complete within a few minutes in soil, whereasNO3added at the same rate is available for > 24 h, indicating that long chase periods biasoutcomes and fail to accurately simulate soil processes.

U2 - 10.1111/nph.15433

DO - 10.1111/nph.15433

M3 - Article

VL - 221

SP - 796

EP - 806

JO - New Phytologist

JF - New Phytologist

SN - 0028-646X

IS - 2

ER -