MAT MAP Total C Total N Clay PH (B)

MAT MAP Total C Total N Clay PH (B) ([degrees]C) (mm) (g/kg) (g/kg) (g/kg)Mean 16 415 13 1.2 357 6.0s.d. 1 72 3 0.3 11 0.6Min. 15 214 9 0.7 110 5.0Max. 18 526 19 1.7 574 7.2(n) 20 20 20 20 20 20 Whole soil P (ignition [H.sub.2]S[0.sub.4]) (A) Total P Inorganic P Organic P (mg/kg) (mg/kg) (mg/kg)Mean 275 143 131s.d. 102 83 30Min. 147 43 85Max. 631 443 188(n) 20 20 20(A) Saunders and Williams (1955).(B) pH water (1:5 soil/water ratio).Table 2. Summary of NaOH/EDTA extractable P forms (in mg/kg) asdetermined by [31.sup.P] NMR spectroscopy and quantified usingspectral deconvolutionOrtho-P, Orthophosphate; Lipid, [alpha]-glycerophosphate and [beta]-glycerophosphate; RNA-sum of up to four individual resonances in thechemical shift range 3.93-4.47 ppm; scyllo-[IP.sub.6], scyllo-Inositol hexakisphosphate; Pyro-P, pyrophosphate. Values for eachindividual soil can be found in the Supplementary Materials Ortho-P Humic-P Lipid Phytate (5.67-5.69 ppm) (4.88-4.90 ppm) (4.69-4.66 ppm) (4.54-4.56 ppm) (4.35-4.31 ppm) (4.21-4.22 ppm)Mean 86 38 4 1s.d. 44 9 2 1Min. 18 25 1 0.0Max. 207 63 7 4(n) 20 20 20 20 RNA scyllo-[IP.sub.6] Diester Pyro-P (3.80-3.84 ppm) (0.5-0.1 ppm) (-4.5-5.5ppm)Mean 1 1 3 3s.d. 1 1 1 1Min. 0.1 0.0 0.2 1Max. 3 2 5 7(n) 20 20 20 20Table 3. Pair-wise correlation coefficients for the concentrations ofP types determined using solution [sup.31]P NMR spectroscopy in NaOH-EDTA extractsData were [log.sub.10] transformed to correct for non-normal datadistribution. * P < 0.05; ** P < 0.01; *** P < 0.001 Humic-P Phytate scyllo-[IP.sub.6]Ortho-P 0.24 * n.s. n.s.Pyro-P 0.35 ** n.s. n.s.RNA 0.35 ** 0.29 * n.s.Lipid 0.51 *** 0.39 ** n.s.Diester 0.57 *** 0.25 * 0.59 ***scyllo-[IP.sub.6] 0.25 * 0.85 *** 1Phytate 0.48 *** 1 --Humic-P 1 -- -- Diester Lipid RNA Pyro-P Ortho-POrtho-P n.s. n.s. n.s. n.s. 1Pyro-P 0.49 *** 0.27 * n.s. 1 --RNA 0.62 *** 0.77 *** 1 -- --Lipid 0.56 *** 1 -- -- --Diester 1 -- -- -- --scyllo-[IP.sub.6] -- -- -- -- --Phytate -- -- -- -- --Humic-P -- -- -- -- --Table 4. Correlation coefficients between P types determined usingsolution [sup.31]P NMR spectroscopy in NaOH-EDTA extracts and total Cand N, and total inorganic and organic PData was [log.sub.10]) transformed to correct for non-normal datadistribution. * P < 0.05; ** P < 0.01; *** P < 0.001 Humic P Phytate scyllo-[IP.sub.6] DiesterTotal C 0.25 * n.s. n.s. 0.44 **Total N 0.37 ** n.s. n.s. 0.59 ***Total P 0.33 *** n.s. n.s. n.s.Inorganic P n.s. n.s. n.s. n.s.Organic P 0.43 ** 0.24 * 0.41 ** 0.42 ** Lipid P RNA Pyro-P Ortho-PTotal C 0.56 *** 0.40 ** 0.25 * n.s.Total N 0.54 *** 0.45 ** 0.35 ** n.s.Total P n.s. n.s. n.s. 0.52 ***Inorganic P n.s. n.s. n.s. 0.47 ***Organic P 0.32 ** 0.22 * 0.41 ** 0.23 *Moata, Melinda R.S.^Doolette, Ashlea L.^Smernik, Ronald J.^McNeill, Ann M.^Macdonald, Lynne M.

MAT MAP Jumlah C Jumlah N tanah liat PH (B)
([derajat] C) (mm) (g / kg) (g / kg) (g / kg)

Berarti 16 415 13 1,2 357 6,0
s.d. 1 72 3 0,3 11 0,6
Min. 15 214 9 0.7 110 5.0
Max. 18 526 19 1,7 574 7,2
(n) 20 20 20 20 20 20

Whole tanah P (ignition
[H2] S [0.sub.4]) (A)

Jumlah P anorganik P Organik P
(mg / kg) (mg / kg) (mg / kg)

Berarti 275 143 131
s.d. 102 83 30
Min. 147 43 85
Max. 631 443 188
(n) 20 20 20

(A) Saunders dan Williams (1955).

(B) air pH (1: 5 tanah / rasio air).

Tabel 2. Ringkasan bentuk diekstrak P NaOH / EDTA (dalam mg / kg ) sebagai
ditentukan oleh [31.sup.P] NMR spektroskopi dan dihitung menggunakan
dekonvolusi spektral

Ortho-P, ortofosfat; Lipid, [alpha] -glycerophosphate dan [beta] -
glycerophosphate; RNA-sum hingga empat resonansi individu dalam
rentang pergeseran kimia 3,93-4,47 ppm; scyllo- [IP.sub.6], scyllo-
Inositol hexakisphosphate; Pyro-P, pirofosfat. Nilai untuk setiap
tanah individu dapat ditemukan di Tambahan Bahan

Ortho-P Humat-P Lipid Fitat
(5,67-5,69 ppm) (4,88-4,90 ppm) (4,69-4,66 ppm)
(4,54-4,56 ppm) (4,35-4,31 ppm)
(4,21-4,22 ppm)

Berarti 86 38 4 1
s.d. 44 9 2 1
Min. 18 25 1 0,0
Max. 207 63 7 4
(n) 20 20 20 20

RNA scyllo- [IP.sub.6] Diester Pyro-P
(3,80-3,84 ppm) (0,5-0,1 ppm) (-4.5-5.5ppm)

Berarti 1 1 3 3
s.d. 1 1 1 1
Min. 0,1 0,0 0,2 1
Max. 3 2 5 7
(n) 20 20 20 20

Tabel 3. koefisien korelasi Pair-bijaksana untuk konsentrasi
jenis P ditentukan dengan menggunakan solusi [sup.31] spektroskopi P NMR di NaOH-
EDTA ekstrak

data yang [log.sub.10] diubah untuk memperbaiki data non-normal
distribusi. * P <0,05; ** P <0,01; *** P <0,001

humat-P Fitat scyllo- [IP.sub.6]

Ortho-P 0,24 * nsns
Pyro-P 0,35 nsns **
RNA 0,35 ** 0,29 * ns
Lipid 0.51 *** 0,39 ** ns
Diester 0.57 *** 0,25 * 0,59 ***
scyllo- [IP.sub.6] 0,25 * 0,85 *** 1
Fitat 0,48 *** 1 -
humat-P 1 - -

Diester Lipid RNA Pyro-P Ortho-P

Ortho-P nsnsnsns 1
Pyro-P 0,49 *** 0,27 * ns 1 -
RNA 0.62 *** 0,77 *** 1 - -
Lipid 0,56 *** 1 - - -
Diester 1 - - - -
scyllo- [IP.sub.6] - - - - -
Fitat - - - - -
humat-P - - - - -

Tabel 4. koefisien korelasi antara jenis P ditentukan dengan menggunakan
solusi [sup.31] P NMR spektroskopi dalam ekstrak NaOH-EDTA dan jumlah C
dan N, dan jumlah anorganik dan organik P

data itu [log.sub.10]) berubah untuk mengoreksi non-normal Data
distribusi. * P <0,05; ** P <0,01; *** P <0,001

humat P Fitat scyllo- [IP.sub.6] Diester

Jumlah C 0,25 * nsns 0.44 **
Jumlah N 0,37 ** nsns 0.59 ***
Jumlah P 0,33 *** nsnsns
anorganik P nsnsnsns
Organik P 0.43 ** 0,24 * 0,41 ** 0,42 **

Lipid P RNA Pyro-P Ortho-P

Jumlah C 0,56 *** 0,40 ** 0,25 * ns
Jumlah N 0,54 *** 0,45 ** 0,35 ** ns
Jumlah P nsnsns 0,52 ** *
Anorganik P nsnsns 0,47 ***
Organik P 0,32 ** 0,22 * 0,41 ** 0,23 *

Moata, Melinda RS ^ Doolette, Ashlea L. ^ Smernik, Ronald J. ^ McNeill, Ann M. ^ Macdonald, Lynne M.