Research on some technical measures for fertilizing Coffea canephora Pierre coffee trees in the business stage on basalt soil in Dak Lak

Analysis of Variance for Diep time a, using Adjusted SS for Tests

Source DF Seq SS Adj SS Adj MS FP Cachbon 2 0.10841 0.10841 0.05420 4.76 0.048

Error

6	0.06827	0.06827	0.01138
Total	8	0.17667

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S = 0.106667 R-Sq = 61.36% R-Sq(adj) = 48.48%

Analysis of Variance for Diep time b, using Adjusted SS for Tests

Source DF	Seq SS	Adj SS	Adj MS
Carbon 2	0.018022	0.018022	0.009011
Error 6	0.008667	0.008667	0.001444
Total 8	0.026689

6.24 0.034

S = 0.0380058 R-Sq = 67.53% R-Sq(adj) = 56.70%

Unusual Observations for Diep at times b

Obs Diep time b Fit SE Fit Residual St Resid

6 0.99000 1.05333 0.02194 -0.06333 -2.04 R

R denotes an observation with a large standardized residual.

Analysis of Variance for Diep time ts, using Adjusted SS for Tests

Source DF		Seq SS	Adj SS Adj MS
Carbon 2		0.21141	0.21141 0.10570
Error	6	0.07197	0.07197	0.01199
Total	8	0.28337

8.81 0.016

S = 0.109519 R-Sq = 74.60% R-Sq(adj) = 66.14%

Unusual Observations for Diep time ts

Obs Diep ts Fit SE Fit Residual St Resid

9 3.02000 2.82667 0.06323 0.19333 2.16 R

R denotes an observation with a large standardized residual. Analysis of Variance for CarotenoiT, using Adjusted SS for Tests

Source DF	Seq SS	Adj SS	Adj MS
Carbon 2	0.01381	0.01381	0.00691
Error 6	0.20056	0.20056	0.03343
Total 8	0.21437

0.21 0.819

S = 0.182830 R-Sq = 6.44% R-Sq(adj) = 0.00%

Analysis of Variance for CDTHN, using Adjusted SS for Tests

Source DF		Seq SS	Adj SS Adj MS
Carbon 2		0.06149	0.06149 0.03074
Error	6	0.42060	0.42060	0.07010
Total	8	0.48209

0.44 0.664

S = 0.264764 R-Sq = 12.75% R-Sq(adj) = 0.00%

Analysis of Variance for CDQH, using Adjusted SS for Tests

Source DF

Seq SS	Adj SS	Adj MS	F	P
Carbon 2	22,333	22,333	11,166	7.05	0.027
Error 6	9,502	9,502	1,584
Total 8	31,834

S = 1.25842 R-Sq = 70.15% R-Sq(adj) = 60.20%

Unusual Observations for CDQH

Obs CDQH

Fit SE Fit	Residual St Resid
8 20.9800	18.8433 0.7265	2.1367 2.08 R

R denotes an observation with a large standardized residual.

Analysis of Variance for CO2-induced bloating in the capsule, using Adjusted SS for Tests

Source DF

Seq SS	Adj SS Adj MS	F	P
Carbon 2	528.2	528.2 264.1	0.57	0.591
Error 6	2761.3	2761.3 460.2
Total 8	3289.6

S = 21.4528 R-Sq = 16.06% R-Sq(adj) = 0.00%

Analysis of Variance for DMKK, using Adjusted SS for Tests

Source DF

Seq SS	Adj SS Adj MS	F	P
Carbon 2	21459	21459 10729	0.41	0.679
Error 6	155991	155991 25999
Total 8	177450

S = 161.241 R-Sq = 12.09% R-Sq(adj) = 0.00%

Unusual Observations for DMKK

DMKK Obs.

Fit SE Fit	Residual St Resid
6 1613.00	1315.33 93.09	297.67 2.26 R

R denotes an observation with a large standardized residual.

Analysis of Variance for Dai Canh Du Tru (cm), using Adjusted SS for Tests

Source DF

Seq SS	Adj SS	Adj MS FP
Carbon 2	12.5763	12.5763	6.2882 10.49 0.011
Error 6	3.5981	3.5981	0.5997
Total 8	16.1744

S = 0.774396 R-Sq = 77.75% R-Sq(adj) = 70.34%

Unusual Observations for Dai Canh Du Tru (cm)

Long Quan

Obs tru (cm) Fit SE Fit Residual St Resid

9 39.5350 38.2350 0.4471 1.3000 2.06 R

R denotes an observation with a large standardized residual.

Analysis of Variance for Toc dot/6thmonth, using Adjusted SS for Tests

Source DF

Seq SS	Adj SS	Adj MS	FP
Carbon 2	0.02355	0.02355	0.01177	0.22 0.808
Error 6	0.31905	0.31905	0.05317
Total 8	0.34260

S = 0.230597 R-Sq = 6.87% R-Sq(adj) = 0.00%

Unusual Observations for Toc dot/6months

Obs dot/6thang Fit

Speed out

SE Fit

Residual St Resid

6 5.22000 5.60500

0.13314

-0.38500 -2.04 R

R denotes an observation with a large standardized residual.

Analysis of Variance for Canh kho/spicy(canh), using Adjusted SS for Tests

Source DF Seq SS

Adj SS	Adj MS F	P
Carbon 2 5.0713	5.0713	2.5356 11.43	0.009
Error 6 1.3307	1.3307	0.2218
Total 8 6.4020

S = 0.470947 R-Sq = 79.21% R-Sq(adj) = 72.28%

Analysis of Variance for So dot/canh, using Adjusted SS for Tests

Source DF

Seq SS	Adj SS	Adj MS FP
Carbon 2	0.91750	0.91750	0.45875 5.41 0.045
Error 6	0.50920	0.50920	0.08487
Total 8	1.42670

S = 0.291318 R-Sq = 64.31% R-Sq(adj) = 52.41%

Unusual Observations for So dot/canh

Obs So dot/canh Fit SE Fit Residual St Resid

5 8.05370 8.54194 0.16819 -0.48824 -2.05 R

R denotes an observation with a large standardized residual.

Analysis of Variance for Chum hoa, qua (jar), using Adjusted SS for Tests

Source DF

Seq SS	Adj SS	Adj MS FP
Carbon 2	832.83	832.83	416.41 5.89 0.038
Error 6	424.17	424.17	70.70
Total 8	1257.00

S = 8.40806 R-Sq = 66.26% R-Sq(adj) = 55.01%

Unusual Observations for Chum qua (chum)

Jar of fruit

Obs (jar) Fit SE Fit Residual St Resid 6 423,865 439,170 4,854 -15,305 -2.23 R

R denotes an observation with a large standardized residual. Analysis of Variance for Ty le age/dental, using Adjusted SS for Tests

Source DF

Seq SS	Adj SS	Adj MS FP
Carbon 2	0.07112	0.07112	0.03556 3.56 0.046
Error 6	0.06000	0.06000	0.01000
Total 8	0.13113

S = 0.100004 R-Sq = 54.24% R-Sq(adj) = 38.99%

Unusual Observations for Age/Dental Type

Obs age/dental Fit SE Fit Residual St Resid

1 4.47000 4.28617 0.05774 0.18383 2.25 R

R denotes an observation with a large standardized residual.

Analysis of Variance for Breast Suat Age (tan), using Adjusted SS for Tests

Source DF Seq SS

Adj SS	Adj MS F	P
Carbon 2 2.3934	2.3934	1.1967 5.53	0.044
Error 6 1.2987	1.2987	0.2165
Total 8 3.6921

S = 0.465246 R-Sq = 64.82% R-Sq(adj) = 53.10%

Unusual Observations for Dietary Suat (tan) Dietary Suat

Obs (tan) Fit SE Fit Residual St Resid

4 14.2511 13.4882 0.2686 0.7629 2.01 R

R denotes an observation with a large standardized residual.

Analysis of Variance for Human Suat (tan), using Adjusted SS for Tests

Source DF

Seq SS	Adj SS	Adj MS	FP
Carbon 2	0.33335	0.33335	0.16668	7.44 0.024
Error 6	0.13447	0.13447	0.02241
Total 8	0.46782

S = 0.149704 R-Sq = 71.26% R-Sq(adj) = 61.68%

Unusual Observations for Human Nutrition (Dissolving) Nutrition

Obs (tan) Fit SE Fit Residual St Resid

1 2.89436 3.15178 0.08643 -0.25743 -2.11 R

R denotes an observation with a large standardized residual.

EXPERIMENT 3. SUPPLEMENTARY SPRAYING OF ZNSO 4 AND ROSABOR

—— 4/27/2014 8:45:51 AM ————————————————————

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Descriptive Statistics: % Huu co (dat, Damage total , Lan total number(, ...

Variable

	CoefVar
% Ownership (land)		9.22
Total land (land)		9.22
Total area		10.88
Total potassium(earth)		16.86
Orchid		7.29
Potassium Dioxide		15.35
Ca 2+(dat)		11.60
Mg2+ (dat)		11.54
Zn (dat)		7.29
B (data)		10.35
N% (a)		5.41
P% (a)		8.60
K% (a)		14.33
CaO% (a)		16.75
MgO%(a)		14.56
Zn (la)		17.75
B (la)		16.24
Moment a		16.94
Moment b		6.37
ts		11.80
Carotenoid		15.73
CDTHN		19.79
CDQH		15.67
CO2 heating in space	b	5.83
DMKK		15.82
Length of the border (cm)		10.01
Speed to point		10.56
Braised/spicy soup (soup)		10.85
Dot/edge (dot)		11.97
Jar of fruit (jar)		6.41
P100 over age (g)		9.59
Age/house ratio		5.14
Fresh yield (tan)		11.55
Nuclear power (tan)		11.83

General Linear Model: % Co (dat), Total Damage (dat, ... versus B, Zn

Factor Type Levels Values

fixed	4 B0,	B1,	B2, B3
Zn	fixed	4 Z0,	Z1,	Z2, Z3

Analysis of Variance for % Huu co (dat), using Adjusted SS for Tests

Source

DF	Seq SS	Adj SS	Adj MS	F	P
B	3	0.0900	0.0900	0.0300	0.28	0.839
Zn	3	0.1621	0.1621	0.0540	0.50	0.682
B*Zn	9	0.3028	0.3028	0.0336	0.31	0.964
Error	32	3.4274	3.4274	0.1071
Total	47	3.9823

S = 0.327270 R-Sq = 13.93% R-Sq(adj) = 0.00%

Unusual Observations for % Huu co (dat)

% Ownership

Obs (dat) Fit SE Fit Residual St Resid 18 3.68925 3.11128 0.18895 0.57796 2.16 R

26 3.71333 3.08236 0.18895 0.63097 2.36 R

R denotes an observation with a large standardized residual.

Analysis of Variance for Dam total so (dat), using Adjusted SS for Tests

Source

DF	Seq SS	Adj SS	Adj MS	F	P
B	3	0.0023391	0.0023391	0.0007797	2.43	0.083
Zn	3	0.0021766	0.0021766	0.0007255	2.26	0.100
B*Zn	9	0.0039922	0.0039922	0.0004436	1.38	0.237
Error	32	0.0102667	0.0102667	0.0003208
Total	47	0.0187745

S = 0.0179118 R-Sq = 45.32% R-Sq(adj) = 19.68%

Unusual Observations for Dam tong so (dat) Dam tong

Obs so (dat) Fit SE Fit Residual St Resid

16 0.205000 0.238333

0.010341	-0.033333	-2.28 R
33 0.150000 0.188333	0.010341	-0.038333	-2.62 R
44 0.260000 0.228333	0.010341	0.031667	2.17 R

R denotes an observation with a large standardized residual.

Analysis of Variance for Spread tong so(dat), using Adjusted SS for Tests

Source

DF	Seq SS	Adj SS	Adj MS	F	P
B	3	0.0008354	0.0008354	0.0002785	0.52	0.674
Zn	3	0.0003729	0.0003729	0.0001243	0.23	0.874
B*Zn	9	0.0017896	0.0017896	0.0001988	0.37	0.941
Error	32	0.0172333	0.0172333	0.0005385
Total	47	0.0202313

S = 0.0232065 R-Sq = 14.82% R-Sq(adj) = 0.00%

Unusual Observations for Lan tong so(dat)

Obs so(data)

Orchid

Fit	SE Fit	Residual	St Resid
1 0.230000	0.180000	0.013398	0.050000	2.64 R
43 0.255000	0.203333	0.013398	0.051667	2.73 R
44 0.270000	0.206667	0.013398	0.063333	3.34 R

R denotes an observation with a large standardized residual.

Analysis of Variance for Kali total so(dat), using Adjusted SS for Tests

Source

DF	Seq SS	Adj SS	Adj MS	F	P
B	3	0.0017261	0.0017261	0.0005754	1.38	0.267
Zn	3	0.0019377	0.0019377	0.0006459	1.55	0.221
B*Zn	9	0.0013919	0.0013919	0.0001547	0.37	0.941
Error	32	0.0133533	0.0133533	0.0004173
Total	47	0.0184090

S = 0.0204277 R-Sq = 27.46% R-Sq(adj) = 0.00%

Unusual Observations for Potassium total so(dat)

Obs

Potassium

so(dat) Fit

SE Fit

Residual St Resid

0.175000 0.135000

0.011794

0.040000 2.40 R

0.180000 0.135000

0.011794

0.045000 2.70 R

R denotes an observation with a large standardized residual.

Analysis of Variance for Lan de tieu(dat), using Adjusted SS for Tests

Source

DF	Seq SS	Adj SS	Adj MS	F	P
B	3	4.0934	4.0934	1.3645	4.86	0.057
Zn	3	0.0046	0.0046	0.0015	0.01	0.999
B*Zn	9	1.5780	1.5780	0.1753	0.62	0.767
Error	32	8.9790	8.9790	0.2806
Total	47	14.6550

S = 0.529710 R-Sq = 38.73% R-Sq(adj) = 10.01%

Unusual Observations for Lan de Tieu(dat) Lan de

Obs title Fit SE Fit Residual St Resid 43 9.86500 8.17667 0.30583 1.68833 3.90 R

R denotes an observation with a large standardized residual.

Analysis of Variance for Kali de tieu(dat), using Adjusted SS for Tests

Source

DF	Seq SS	Adj SS	Adj MS	F	P
B	3	18,163	18,163	6,054	0.73	0.540
Zn	3	3,636	3,636	1,212	0.15	0.931
B*Zn	9	12,084	12,084	1,343	0.16	0.996
Error	32	264,506	264,506	8,266
Total	47	298,390

S = 2.87503 R-Sq = 11.36% R-Sq(adj) = 0.00%

Unusual Observations for Kali de tieu(dat) Kali de

Obs tieu(dat) Fit SE Fit Residual St Resid

35 10.8000 15.8333

1.6599 -5.0333	-2.14 R
36 9.0350 15.0067	1.6599 -5.9717	-2.54 R

Source	DF	Seq SS	Adj SS	Adj MS	F	P
B	3	0.3834	0.3834	0.1278	1.07	0.376
Zn	3	0.3997	0.3997	0.1332	1.12	0.357
B*Zn	9	0.6791	0.6791	0.0755	0.63	0.761
Error	32	3.8213	3.8213	0.1194
Total	47	5.2836

R denotes an observation with a large standardized residual. Analysis of Variance for Ca 2+(dat), using Adjusted SS for Tests

S = 0.345568 R-Sq = 27.67% R-Sq(adj) = 0.00%

Unusual Observations for Ca 2+(dat)

Obs Ca 2+(dat) Fit SE Fit Residual St Resid

2.32993 3.08550	0.19951 -0.75558	-2.68 R
47	3.81496 3.08550	0.19951 0.72946	2.59 R
48	3.78506 3.06530	0.19951 0.71976	2.55 R

Source	DF	Seq SS	Adj SS	Adj MS	F	P
B	3	0.26916	0.26916	0.08972	1.18	0.332
Zn	3	0.06362	0.06362	0.02121	0.28	0.840
B*Zn	9	0.32301	0.32301	0.03589	0.47	0.882
Error	32	2.42733	2.42733	0.07585
Total	47	3.08312

R denotes an observation with a large standardized residual. Analysis of Variance for Mg 2+ (dat), using Adjusted SS for Tests

S = 0.275416 R-Sq = 21.27% R-Sq(adj) = 0.00%

Unusual Observations for Mg 2+ (dat)

Obs Mg

2+ (data)	Fit	SE Fit	Residual St	Resid
9	1.70365	2.24446	0.15901	-0.54081	-2.40 R
15	1.69910	2.31870	0.15901	-0.61960	-2.76 R
47	2.79451	2.31870	0.15901	0.47582	2.12 R

Source	DF	Seq SS	Adj SS	Adj MS	F	P
B	3	134.79	134.79	44.93	0.71	0.551
Zn	3	189.22	189.22	63.07	2.74	0.037
B*Zn	9	49.47	49.47	5.50	0.09	1,000
Error	32	2016.51	2016.51	23.02
Total	47	2340.44