Journal of Agriculture ›› 2021, Vol. 11 ›› Issue (9): 38-44.doi: 10.11923/j.issn.2095-4050.cjas20190800169
Special Issue: 园艺
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Xie Guoxiong1(), Ruan Yifei2, Wu Qifeng2
Received:
2019-08-26
Revised:
2019-10-21
Online:
2021-09-20
Published:
2021-09-30
CLC Number:
Xie Guoxiong, Ruan Yifei, Wu Qifeng. Study on Phosphorus Forms and Their Influencing Factors in Tea Garden Red Soil[J]. Journal of Agriculture, 2021, 11(9): 38-44.
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URL: http://nxxb.caass.org.cn/EN/10.11923/j.issn.2095-4050.cjas20190800169
编号 | 施肥 | 母岩 | 全磷/(mg/kg) | 有机碳/(g/kg) | 有机磷/% | Ca2-P/% | Ca8-P/% | Ca10-P/% | Fe-P/% | Al-P/% | O-P/% |
---|---|---|---|---|---|---|---|---|---|---|---|
1 | 化肥 | 变质岩 | 214 | 16.52 | 19.86 | 0.85 | 0.21 | 8.25 | 17.58 | 2.14 | 53.25 |
2 | 化肥 | 玄武岩 | 256 | 17.98 | 31.45 | 0.45 | 0.35 | 6.95 | 4.93 | 1.98 | 55.87 |
3 | 化肥 | 玄武岩 | 273 | 21.54 | 36.54 | 0.39 | 0.46 | 7.32 | 3.71 | 1.78 | 51.58 |
4 | 化肥 | 变质岩 | 297 | 16.35 | 17.65 | 0.73 | 0.52 | 5.69 | 16.76 | 2.23 | 58.65 |
5 | 化肥 | Q2红土 | 311 | 9.54 | 17.49 | 0.78 | 0.65 | 7.29 | 11.64 | 2.14 | 62.15 |
6 | 化肥 | 泥页岩 | 328 | 12.45 | 20.14 | 1.12 | 0.41 | 8.14 | 21.54 | 2.35 | 48.65 |
7 | 化肥 | Q2红土 | 354 | 9.65 | 23.45 | 0.85 | 0.64 | 7.65 | 16.15 | 2.65 | 51.26 |
8 | 化肥 | 变质岩 | 369 | 15.64 | 20.14 | 1.65 | 0.52 | 5.65 | 26.36 | 2.47 | 45.68 |
9 | 有机肥+化肥 | 砂岩 | 379 | 18.52 | 29.45 | 1.68 | 0.38 | 6.24 | 22.6 | 2.87 | 39.65 |
10 | 化肥 | 变质岩 | 395 | 23.52 | 34.52 | 1.32 | 0.48 | 7.15 | 14.39 | 2.19 | 42.14 |
11 | 有机肥+化肥 | Q2红土 | 412 | 16.65 | 23.52 | 1.25 | 0.96 | 6.98 | 17.73 | 2.39 | 49.56 |
12 | 化肥 | 变质岩 | 425 | 17.56 | 24.56 | 1.38 | 0.85 | 8.54 | 17.42 | 2.65 | 47.25 |
13 | 有机肥+化肥 | 玄武岩 | 438 | 25.14 | 32.64 | 1.25 | 0.73 | 7.24 | 8.03 | 2.87 | 50.11 |
14 | 化肥 | 玄武岩 | 446 | 19.65 | 27.65 | 1.32 | 0.45 | 6.58 | 17.75 | 2.93 | 46.25 |
15 | 化肥 | Q2红土 | 453 | 14.52 | 20.14 | 1.45 | 0.25 | 7.41 | 27.61 | 2.45 | 43.14 |
16 | 有机肥+化肥 | 泥页岩 | 459 | 19.65 | 31.58 | 1.63 | 0.65 | 7.32 | 13.56 | 2.35 | 45.26 |
17 | 有机肥+化肥 | 变质岩 | 476 | 29.65 | 37.68 | 1.38 | 0.85 | 8.52 | 11.89 | 2.65 | 39.68 |
18 | 化肥 | Q2红土 | 482 | 15.36 | 21.45 | 1.78 | 0.94 | 7.45 | 15.13 | 2.29 | 53.25 |
19 | 有机肥+化肥 | 砂岩 | 495 | 25.41 | 41.25 | 1.52 | 0.52 | 6.58 | 10.48 | 3.14 | 39.65 |
20 | 化肥 | 泥页岩 | 497 | 17.65 | 32.15 | 1.74 | 0.46 | 8.65 | 24.46 | 2.45 | 32.54 |
21 | 化肥 | 玄武岩 | 518 | 7.65 | 16.54 | 1.95 | 0.39 | 7.45 | 26.22 | 3.25 | 47.45 |
22 | 化肥 | Q2红土 | 564 | 8.95 | 18.35 | 2.15 | 0.85 | 6.98 | 23.08 | 2.85 | 48.59 |
23 | 化肥 | Q2红土 | 578 | 13.65 | 17.45 | 1.36 | 0.74 | 5.85 | 28.48 | 2.64 | 46.12 |
24 | 有机肥+化肥 | 变质岩 | 594 | 17.56 | 30.14 | 1.42 | 0.65 | 7.25 | 18 | 2.85 | 42.54 |
25 | 化肥 | Q2红土 | 613 | 19.65 | 34.21 | 2.25 | 0.59 | 7.65 | 15.45 | 3.25 | 39.85 |
26 | 化肥 | 砂岩 | 642 | 24.24 | 36.54 | 1.78 | 0.84 | 6.45 | 18.41 | 3.18 | 35.98 |
27 | 有机肥+化肥 | 泥页岩 | 658 | 16.65 | 21.54 | 1.52 | 1.31 | 8.25 | 25.73 | 2.85 | 41.65 |
28 | 化肥 | 泥页岩 | 687 | 19.54 | 31.52 | 1.42 | 1.02 | 7.45 | 19.62 | 2.79 | 38.97 |
29 | 化肥 | 泥页岩 | 721 | 23.54 | 29.65 | 1.87 | 0.85 | 6.52 | 18.55 | 2.69 | 42.56 |
30 | 化肥 | 砂岩 | 754 | 24.65 | 31.56 | 2.24 | 0.74 | 5.48 | 24.33 | 2.84 | 35.65 |
31 | 化肥 | 泥页岩 | 789 | 23.54 | 32.56 | 1.65 | 0.65 | 6.85 | 18.64 | 2.68 | 39.65 |
32 | 有机肥+化肥 | 泥页岩 | 812 | 27.65 | 35.42 | 1.98 | 0.92 | 5.15 | 17.97 | 3.32 | 38.56 |
33 | 化肥 | Q2红土 | 832 | 18.65 | 22.45 | 2.65 | 0.78 | 4.95 | 26.91 | 3.05 | 42.26 |
34 | 化肥 | 砂岩 | 845 | 19.65 | 28.65 | 2.24 | 0.95 | 5.29 | 31.43 | 3.18 | 31.44 |
35 | 化肥 | 泥页岩 | 876 | 24.56 | 28.65 | 2.52 | 1.05 | 5.24 | 22.86 | 3.25 | 39.68 |
编号 | 施肥 | 母岩 | 全磷/(mg/kg) | 有机碳/(g/kg) | 有机磷/% | Ca2-P/% | Ca8-P/% | Ca10-P/% | Fe-P/% | Al-P/% | O-P/% |
---|---|---|---|---|---|---|---|---|---|---|---|
1 | 化肥 | 变质岩 | 214 | 16.52 | 19.86 | 0.85 | 0.21 | 8.25 | 17.58 | 2.14 | 53.25 |
2 | 化肥 | 玄武岩 | 256 | 17.98 | 31.45 | 0.45 | 0.35 | 6.95 | 4.93 | 1.98 | 55.87 |
3 | 化肥 | 玄武岩 | 273 | 21.54 | 36.54 | 0.39 | 0.46 | 7.32 | 3.71 | 1.78 | 51.58 |
4 | 化肥 | 变质岩 | 297 | 16.35 | 17.65 | 0.73 | 0.52 | 5.69 | 16.76 | 2.23 | 58.65 |
5 | 化肥 | Q2红土 | 311 | 9.54 | 17.49 | 0.78 | 0.65 | 7.29 | 11.64 | 2.14 | 62.15 |
6 | 化肥 | 泥页岩 | 328 | 12.45 | 20.14 | 1.12 | 0.41 | 8.14 | 21.54 | 2.35 | 48.65 |
7 | 化肥 | Q2红土 | 354 | 9.65 | 23.45 | 0.85 | 0.64 | 7.65 | 16.15 | 2.65 | 51.26 |
8 | 化肥 | 变质岩 | 369 | 15.64 | 20.14 | 1.65 | 0.52 | 5.65 | 26.36 | 2.47 | 45.68 |
9 | 有机肥+化肥 | 砂岩 | 379 | 18.52 | 29.45 | 1.68 | 0.38 | 6.24 | 22.6 | 2.87 | 39.65 |
10 | 化肥 | 变质岩 | 395 | 23.52 | 34.52 | 1.32 | 0.48 | 7.15 | 14.39 | 2.19 | 42.14 |
11 | 有机肥+化肥 | Q2红土 | 412 | 16.65 | 23.52 | 1.25 | 0.96 | 6.98 | 17.73 | 2.39 | 49.56 |
12 | 化肥 | 变质岩 | 425 | 17.56 | 24.56 | 1.38 | 0.85 | 8.54 | 17.42 | 2.65 | 47.25 |
13 | 有机肥+化肥 | 玄武岩 | 438 | 25.14 | 32.64 | 1.25 | 0.73 | 7.24 | 8.03 | 2.87 | 50.11 |
14 | 化肥 | 玄武岩 | 446 | 19.65 | 27.65 | 1.32 | 0.45 | 6.58 | 17.75 | 2.93 | 46.25 |
15 | 化肥 | Q2红土 | 453 | 14.52 | 20.14 | 1.45 | 0.25 | 7.41 | 27.61 | 2.45 | 43.14 |
16 | 有机肥+化肥 | 泥页岩 | 459 | 19.65 | 31.58 | 1.63 | 0.65 | 7.32 | 13.56 | 2.35 | 45.26 |
17 | 有机肥+化肥 | 变质岩 | 476 | 29.65 | 37.68 | 1.38 | 0.85 | 8.52 | 11.89 | 2.65 | 39.68 |
18 | 化肥 | Q2红土 | 482 | 15.36 | 21.45 | 1.78 | 0.94 | 7.45 | 15.13 | 2.29 | 53.25 |
19 | 有机肥+化肥 | 砂岩 | 495 | 25.41 | 41.25 | 1.52 | 0.52 | 6.58 | 10.48 | 3.14 | 39.65 |
20 | 化肥 | 泥页岩 | 497 | 17.65 | 32.15 | 1.74 | 0.46 | 8.65 | 24.46 | 2.45 | 32.54 |
21 | 化肥 | 玄武岩 | 518 | 7.65 | 16.54 | 1.95 | 0.39 | 7.45 | 26.22 | 3.25 | 47.45 |
22 | 化肥 | Q2红土 | 564 | 8.95 | 18.35 | 2.15 | 0.85 | 6.98 | 23.08 | 2.85 | 48.59 |
23 | 化肥 | Q2红土 | 578 | 13.65 | 17.45 | 1.36 | 0.74 | 5.85 | 28.48 | 2.64 | 46.12 |
24 | 有机肥+化肥 | 变质岩 | 594 | 17.56 | 30.14 | 1.42 | 0.65 | 7.25 | 18 | 2.85 | 42.54 |
25 | 化肥 | Q2红土 | 613 | 19.65 | 34.21 | 2.25 | 0.59 | 7.65 | 15.45 | 3.25 | 39.85 |
26 | 化肥 | 砂岩 | 642 | 24.24 | 36.54 | 1.78 | 0.84 | 6.45 | 18.41 | 3.18 | 35.98 |
27 | 有机肥+化肥 | 泥页岩 | 658 | 16.65 | 21.54 | 1.52 | 1.31 | 8.25 | 25.73 | 2.85 | 41.65 |
28 | 化肥 | 泥页岩 | 687 | 19.54 | 31.52 | 1.42 | 1.02 | 7.45 | 19.62 | 2.79 | 38.97 |
29 | 化肥 | 泥页岩 | 721 | 23.54 | 29.65 | 1.87 | 0.85 | 6.52 | 18.55 | 2.69 | 42.56 |
30 | 化肥 | 砂岩 | 754 | 24.65 | 31.56 | 2.24 | 0.74 | 5.48 | 24.33 | 2.84 | 35.65 |
31 | 化肥 | 泥页岩 | 789 | 23.54 | 32.56 | 1.65 | 0.65 | 6.85 | 18.64 | 2.68 | 39.65 |
32 | 有机肥+化肥 | 泥页岩 | 812 | 27.65 | 35.42 | 1.98 | 0.92 | 5.15 | 17.97 | 3.32 | 38.56 |
33 | 化肥 | Q2红土 | 832 | 18.65 | 22.45 | 2.65 | 0.78 | 4.95 | 26.91 | 3.05 | 42.26 |
34 | 化肥 | 砂岩 | 845 | 19.65 | 28.65 | 2.24 | 0.95 | 5.29 | 31.43 | 3.18 | 31.44 |
35 | 化肥 | 泥页岩 | 876 | 24.56 | 28.65 | 2.52 | 1.05 | 5.24 | 22.86 | 3.25 | 39.68 |
编号 | 施肥 | 母岩 | 活性有机磷 | 中度活性有机磷 | 中稳性有机磷 | 高稳性有机磷 | |
---|---|---|---|---|---|---|---|
1 | 化肥 | 变质岩 | 2.65 | 57.64 | 32.06 | 7.65 | |
2 | 化肥 | 玄武岩 | 1.78 | 52.14 | 33.94 | 12.14 | |
3 | 化肥 | 玄武岩 | 2.65 | 48.95 | 32.78 | 15.62 | |
4 | 化肥 | 变质岩 | 3.25 | 59.68 | 28.51 | 8.56 | |
5 | 化肥 | Q2红土 | 1.87 | 43.25 | 50.5 | 4.38 | |
6 | 化肥 | 泥页岩 | 2.45 | 57.58 | 34.1 | 5.87 | |
7 | 化肥 | Q2红土 | 2.98 | 53.58 | 32.9 | 10.54 | |
8 | 化肥 | 变质岩 | 2.36 | 49.58 | 39.41 | 8.65 | |
9 | 有机肥+化肥 | 砂岩 | 2.65 | 52.15 | 37.95 | 7.25 | |
10 | 化肥 | 变质岩 | 3.56 | 57.56 | 34.2 | 4.68 | |
11 | 有机肥+化肥 | Q2红土 | 4.12 | 50.26 | 40.36 | 5.26 | |
12 | 化肥 | 变质岩 | 3.87 | 53.64 | 33.84 | 8.65 | |
13 | 有机肥+化肥 | 玄武岩 | 2.89 | 56.85 | 35.31 | 4.95 | |
14 | 化肥 | 玄武岩 | 3.45 | 57.25 | 31.05 | 8.25 | |
15 | 化肥 | Q2红土 | 2.41 | 53.24 | 31.1 | 13.25 | |
16 | 有机肥+化肥 | 泥页岩 | 4.25 | 51.45 | 30.05 | 14.25 | |
17 | 有机肥+化肥 | 变质岩 | 3.65 | 48.48 | 34.62 | 13.25 | |
18 | 化肥 | Q2红土 | 4.12 | 56.25 | 29.38 | 10.25 | |
19 | 有机肥+化肥 | 砂岩 | 3.52 | 47.65 | 31.31 | 17.52 | |
20 | 化肥 | 泥页岩 | 4.15 | 43.65 | 38.58 | 13.62 | |
21 | 化肥 | 玄武岩 | 5.24 | 45.68 | 43.44 | 5.64 | |
22 | 化肥 | Q2红土 | 4.25 | 47.58 | 42.92 | 5.25 | |
23 | 化肥 | Q2红土 | 3.56 | 51.24 | 41.64 | 3.56 | |
24 | 有机肥+化肥 | 变质岩 | 4.56 | 41.25 | 49.51 | 4.68 | |
25 | 化肥 | Q2红土 | 5.41 | 46.25 | 41.09 | 7.25 | |
26 | 化肥 | 砂岩 | 3.68 | 43.85 | 43.23 | 9.24 | |
27 | 有机肥+化肥 | 泥页岩 | 5.26 | 45.85 | 42.37 | 6.52 | |
28 | 化肥 | 泥页岩 | 6.24 | 47.65 | 38.96 | 7.15 | |
29 | 化肥 | 泥页岩 | 5.41 | 43.25 | 43.06 | 8.28 | |
30 | 化肥 | 砂岩 | 3.98 | 41.25 | 47.52 | 7.25 | |
31 | 化肥 | 泥页岩 | 4.66 | 40.38 | 48.51 | 6.45 | |
32 | 有机肥+化肥 | 泥页岩 | 5.18 | 43.65 | 38.63 | 12.54 | |
33 | 化肥 | Q2红土 | 3.58 | 42.56 | 43.51 | 10.35 | |
34 | 化肥 | 砂岩 | 5.29 | 43.25 | 42.88 | 8.58 | |
35 | 化肥 | 泥页岩 | 7.35 | 42.65 | 42.46 | 7.54 |
编号 | 施肥 | 母岩 | 活性有机磷 | 中度活性有机磷 | 中稳性有机磷 | 高稳性有机磷 | |
---|---|---|---|---|---|---|---|
1 | 化肥 | 变质岩 | 2.65 | 57.64 | 32.06 | 7.65 | |
2 | 化肥 | 玄武岩 | 1.78 | 52.14 | 33.94 | 12.14 | |
3 | 化肥 | 玄武岩 | 2.65 | 48.95 | 32.78 | 15.62 | |
4 | 化肥 | 变质岩 | 3.25 | 59.68 | 28.51 | 8.56 | |
5 | 化肥 | Q2红土 | 1.87 | 43.25 | 50.5 | 4.38 | |
6 | 化肥 | 泥页岩 | 2.45 | 57.58 | 34.1 | 5.87 | |
7 | 化肥 | Q2红土 | 2.98 | 53.58 | 32.9 | 10.54 | |
8 | 化肥 | 变质岩 | 2.36 | 49.58 | 39.41 | 8.65 | |
9 | 有机肥+化肥 | 砂岩 | 2.65 | 52.15 | 37.95 | 7.25 | |
10 | 化肥 | 变质岩 | 3.56 | 57.56 | 34.2 | 4.68 | |
11 | 有机肥+化肥 | Q2红土 | 4.12 | 50.26 | 40.36 | 5.26 | |
12 | 化肥 | 变质岩 | 3.87 | 53.64 | 33.84 | 8.65 | |
13 | 有机肥+化肥 | 玄武岩 | 2.89 | 56.85 | 35.31 | 4.95 | |
14 | 化肥 | 玄武岩 | 3.45 | 57.25 | 31.05 | 8.25 | |
15 | 化肥 | Q2红土 | 2.41 | 53.24 | 31.1 | 13.25 | |
16 | 有机肥+化肥 | 泥页岩 | 4.25 | 51.45 | 30.05 | 14.25 | |
17 | 有机肥+化肥 | 变质岩 | 3.65 | 48.48 | 34.62 | 13.25 | |
18 | 化肥 | Q2红土 | 4.12 | 56.25 | 29.38 | 10.25 | |
19 | 有机肥+化肥 | 砂岩 | 3.52 | 47.65 | 31.31 | 17.52 | |
20 | 化肥 | 泥页岩 | 4.15 | 43.65 | 38.58 | 13.62 | |
21 | 化肥 | 玄武岩 | 5.24 | 45.68 | 43.44 | 5.64 | |
22 | 化肥 | Q2红土 | 4.25 | 47.58 | 42.92 | 5.25 | |
23 | 化肥 | Q2红土 | 3.56 | 51.24 | 41.64 | 3.56 | |
24 | 有机肥+化肥 | 变质岩 | 4.56 | 41.25 | 49.51 | 4.68 | |
25 | 化肥 | Q2红土 | 5.41 | 46.25 | 41.09 | 7.25 | |
26 | 化肥 | 砂岩 | 3.68 | 43.85 | 43.23 | 9.24 | |
27 | 有机肥+化肥 | 泥页岩 | 5.26 | 45.85 | 42.37 | 6.52 | |
28 | 化肥 | 泥页岩 | 6.24 | 47.65 | 38.96 | 7.15 | |
29 | 化肥 | 泥页岩 | 5.41 | 43.25 | 43.06 | 8.28 | |
30 | 化肥 | 砂岩 | 3.98 | 41.25 | 47.52 | 7.25 | |
31 | 化肥 | 泥页岩 | 4.66 | 40.38 | 48.51 | 6.45 | |
32 | 有机肥+化肥 | 泥页岩 | 5.18 | 43.65 | 38.63 | 12.54 | |
33 | 化肥 | Q2红土 | 3.58 | 42.56 | 43.51 | 10.35 | |
34 | 化肥 | 砂岩 | 5.29 | 43.25 | 42.88 | 8.58 | |
35 | 化肥 | 泥页岩 | 7.35 | 42.65 | 42.46 | 7.54 |
项目 | 有机磷 | Ca2-P | Ca8-P | Ca10-P | Fe-P | Al-P | O-P | |
---|---|---|---|---|---|---|---|---|
全磷 | 0.8681** | 0.9478** | 0.8948** | 0.8614** | 0.8781** | 0.9790** | 0.9194** | |
有效磷 | 0.7435** | 0.8550** | 0.7025** | 0.7494** | 0.7153** | 0.8565** | 0.7745** |
项目 | 有机磷 | Ca2-P | Ca8-P | Ca10-P | Fe-P | Al-P | O-P | |
---|---|---|---|---|---|---|---|---|
全磷 | 0.8681** | 0.9478** | 0.8948** | 0.8614** | 0.8781** | 0.9790** | 0.9194** | |
有效磷 | 0.7435** | 0.8550** | 0.7025** | 0.7494** | 0.7153** | 0.8565** | 0.7745** |
项目 | 有机磷 | Ca2-P | Ca8-P | Ca10-P | Fe-P | Al-P | O-P |
---|---|---|---|---|---|---|---|
全磷 | 0.2384 | 0.8207** | 0.6339** | -0.4979* | 0.4963* | 0.7389** | -0.7081** |
有机碳 | 0.8390** | 0.2093 | 0.2377 | -0.2410 | -0.3030 | 0.2523 | -0.5292* |
pH值 | 0.2662 | 0.5525* | 0.5910* | 0.0160 | 0.3616 | 0.5299* | -0.6627* |
项目 | 有机磷 | Ca2-P | Ca8-P | Ca10-P | Fe-P | Al-P | O-P |
---|---|---|---|---|---|---|---|
全磷 | 0.2384 | 0.8207** | 0.6339** | -0.4979* | 0.4963* | 0.7389** | -0.7081** |
有机碳 | 0.8390** | 0.2093 | 0.2377 | -0.2410 | -0.3030 | 0.2523 | -0.5292* |
pH值 | 0.2662 | 0.5525* | 0.5910* | 0.0160 | 0.3616 | 0.5299* | -0.6627* |
施肥 | 全磷/(mg/kg) | 有机碳/(g/kg) | 有机磷/% | Ca2-P/% | Ca8-P/% | Ca10-P/% | Fe-P/% | Al-P/% | O-P/% |
---|---|---|---|---|---|---|---|---|---|
化肥(n=26) | 519.96±199.55a | 17.55±5.08a | 25.97± 6.66a | 1.53±0.62a | 0.64±0.24a | 6.88±1.05a | 19.59± 6.72a | 2.63±0.42a | 45.38±7.76a |
有机肥+化肥(n=9) | 524.78±138.80a | 21.88±5.08a | 31.47±6.31a | 1.51±0.23a | 0.77±0.27a | 7.06±1.01a | 16.22±5.76a | 2.81±0.31a | 42.96±4.39a |
施肥 | 全磷/(mg/kg) | 有机碳/(g/kg) | 有机磷/% | Ca2-P/% | Ca8-P/% | Ca10-P/% | Fe-P/% | Al-P/% | O-P/% |
---|---|---|---|---|---|---|---|---|---|
化肥(n=26) | 519.96±199.55a | 17.55±5.08a | 25.97± 6.66a | 1.53±0.62a | 0.64±0.24a | 6.88±1.05a | 19.59± 6.72a | 2.63±0.42a | 45.38±7.76a |
有机肥+化肥(n=9) | 524.78±138.80a | 21.88±5.08a | 31.47±6.31a | 1.51±0.23a | 0.77±0.27a | 7.06±1.01a | 16.22±5.76a | 2.81±0.31a | 42.96±4.39a |
母岩 | 有机磷 | Ca2-P | Ca8-P | Ca10-P | Fe-P | Al-P | O-P |
---|---|---|---|---|---|---|---|
玄武岩(n=5) | 28.96±7.63ab | 1.07±0.65c | 0.48±0.15b | 7.11±0.35a | 12.13±9.61a | 2.56±0.64ab | 50.25±3.78a |
Q2红土(n=9) | 22.06±5.15b | 1.61±0.64ab | 0.71±0.22ab | 6.91±0.92a | 20.24±6.33a | 2.63±0.36b | 48.46±6.76ab |
变质岩(n=7) | 26.36±7.84ab | 1.25±0.33bc | 0.58±0.23ab | 7.29±1.24a | 17.49±4.48a | 2.45±0.27b | 47.03±6.75ab |
泥页岩(n=9) | 29.25±5.14ab | 1.72±0.39ab | 0.81±0.30a | 7.06±1.26a | 20.33±3.74a | 2.75±0.35ab | 40.84±4.53bc |
砂岩(n=5) | 33.49±5.31a | 1.89±0.33a | 0.69±0.23ab | 6.01±0.59a | 21.45±7.73a | 3.04±0.17a | 36.47±3.41c |
母岩 | 有机磷 | Ca2-P | Ca8-P | Ca10-P | Fe-P | Al-P | O-P |
---|---|---|---|---|---|---|---|
玄武岩(n=5) | 28.96±7.63ab | 1.07±0.65c | 0.48±0.15b | 7.11±0.35a | 12.13±9.61a | 2.56±0.64ab | 50.25±3.78a |
Q2红土(n=9) | 22.06±5.15b | 1.61±0.64ab | 0.71±0.22ab | 6.91±0.92a | 20.24±6.33a | 2.63±0.36b | 48.46±6.76ab |
变质岩(n=7) | 26.36±7.84ab | 1.25±0.33bc | 0.58±0.23ab | 7.29±1.24a | 17.49±4.48a | 2.45±0.27b | 47.03±6.75ab |
泥页岩(n=9) | 29.25±5.14ab | 1.72±0.39ab | 0.81±0.30a | 7.06±1.26a | 20.33±3.74a | 2.75±0.35ab | 40.84±4.53bc |
砂岩(n=5) | 33.49±5.31a | 1.89±0.33a | 0.69±0.23ab | 6.01±0.59a | 21.45±7.73a | 3.04±0.17a | 36.47±3.41c |
土壤类别 | 全磷/(mg/kg) | 有机碳/(g/kg) | 有机磷/% | Ca2-P/% | Ca8-P/% | Ca10-P/% | Fe-P/% | Al-P/% | O-P/% |
---|---|---|---|---|---|---|---|---|---|
茶园(n=35) | 521±184a | 18.66±5.36a | 27.39±6.93a | 1.53±0.54a | 0.67±0.25a | 6.93±1.03a | 18.73±6.58a | 2.68±0.40a | 44.76±7.07b |
荒地(n=12) | 312±76b | 11.22±3.06a | 14.81±1.92b | 0.59±0.17b | 0.73±0.21a | 7.33±0.60a | 15.30±2.75a | 2.22±0.41b | 61.24±3.84a |
土壤类别 | 全磷/(mg/kg) | 有机碳/(g/kg) | 有机磷/% | Ca2-P/% | Ca8-P/% | Ca10-P/% | Fe-P/% | Al-P/% | O-P/% |
---|---|---|---|---|---|---|---|---|---|
茶园(n=35) | 521±184a | 18.66±5.36a | 27.39±6.93a | 1.53±0.54a | 0.67±0.25a | 6.93±1.03a | 18.73±6.58a | 2.68±0.40a | 44.76±7.07b |
荒地(n=12) | 312±76b | 11.22±3.06a | 14.81±1.92b | 0.59±0.17b | 0.73±0.21a | 7.33±0.60a | 15.30±2.75a | 2.22±0.41b | 61.24±3.84a |
[1] | 杨芳, 何园球, 李成亮, 等. 不同施肥条件下红壤旱地磷素形态及有效性分析[J]. 土壤学报, 2006, 43(5):793-799. |
[2] | 黄庆海, 李茶荀, 赖涛, 等. 长期施肥对红壤性水稻土磷素积累与形态分异的影响[J]. 土壤与环境, 2000, 9(4):290-293. |
[3] | 李艾芬, 章明奎. 浙北平原不同种植年限蔬菜地土壤氮磷的积累及环境风险评价[J]. 农业环境科学学报, 2010, 29(1):122-127. |
[4] | 高秀美, 汪吉东, 刘兆普, 等. 集约化蔬菜地土壤磷素累积特征及流失风险[J]. 生态与农村环境学报, 2010, 26(1):82-86. |
[5] | Heckrath G, Brookes P C, Poultion P R , et al. Phosphorus leaching from soils containing different phosphorus concentrations in the Broadbalk experiment[J]. Journal of Environmental Quality, 1995, 24:904-910. |
[6] |
Shafqat M N, Pierzynski G M. Long-term effects of tillage and manure applications on soil phosphorus fractions[J]. Communications in Soil Science and Plant Analysis, 2010, 41(9):1084-1097.
doi: 10.1080/00103621003687174 URL |
[7] |
Gale P M, Mullen M D, Cieslik C, et al. Phosphorus distribution and availability in response to dairy manure applications[J]. Communications in Soil Science and Plant Analysis, 2000, 31:553-565.
doi: 10.1080/00103620009370459 URL |
[8] | 黄庆海, 李茶荀, 赖涛, 等. 长期施肥对红壤性水稻土磷素积累与形态分异的影响[J]. 土壤与环境, 2000, 99(40):290-293. |
[9] | 曾晓敏, 范跃新, 林开淼, 等. 亚热带不同植被类型土壤磷组分特征及其影响因素[J]. 应用生态学报, 2018, 29(07):2156-2162. |
[10] | 王非非, 窦文涛, 谢修鸿, 等. 苹果梨园土壤有机磷组分剖面规律的研究[J]. 延边大学农学学报, 2016, 38(1):1-4,30. |
[11] | 郇恒福, 黄嘉璞, 线琳, 等. 施用豆科绿肥对酸性土壤有机磷组分的动态影响[J]. 草地学报, 2014, 22(6):1216-1221. |
[12] | 黄庆海, 赖涛, 吴强, 等. 长期施肥对红壤性水稻土有机磷组分的影响[J]. 植物营养与肥料学报, 2003(1):63-66,97. |
[13] |
Motavalli J, Miles R. Soil phosphorus fractions after 111 years of animal manure and fertilizer application[J]. Biology and fertility of Soil, 2002, 36:35-42.
doi: 10.1007/s00374-002-0500-6 URL |
[14] |
Sui Y, Thompson M L. Phosphorus sorption, desorption, and buffering capacity in a biosolids-amended Mollisol[J]. Soil Science Society of America Journal, 2000, 64(1):164-169.
doi: 10.2136/sssaj2000.641164x URL |
[15] |
Weil R R, Benedetto P W, Sikora L J, et al. Influence of tillage practices on phosphorus distribution and forms in three Utisols[J]. Agronomy Journal, 1988, 80:503-509.
doi: 10.2134/agronj1988.00021962008000030022x URL |
[16] |
Hedley M J, Steward J W B, Chauhan B S . Changes in inorganic and organic soil phosphorus fractions induced by cultivation practices and by laboratory incubations[J]. Soil Sci Soc Am J, 1982, 46:970-976.
doi: 10.2136/sssaj1982.03615995004600050017x URL |
[17] | 周宝库, 张喜林. 长期施肥对黑土磷素积累、形态转化及其有效性影响的研究[J]. 植物营养与肥料学报, 2005, 11(2):143-147. |
[18] | Hesketh N, Brookes C. Development of an indicator for risk of phosphorus leaching[J]. Journal of Environmental Quality, 2000, 29:105-110. |
[19] | 王新民, 候彦林. 有机物料对石灰性土壤磷素及吸附特性的影响研究[J]. 环境科学学报, 2004, 24(3):440-443. |
[20] | 赵庆雷, 王凯荣, 谢小立. 长期有机肥循环对黄筋泥稻田土壤磷吸附和解吸特性的影响[J]. 中国农业科学, 2009, 42(1):355-362. |
[21] | 蒋柏藩. 石灰性土壤无机磷有效性的研究[J]. 土壤, 1992, 24(2):61-64. |
[22] | 熊恒多, 李世俊, 范业宽. 酸性水稻土有机磷分组法讨论[J]. 土壤学报, 1993, 30(4):390-399. |
[23] | 鲍士旦. 土壤农化分析[M]. 北京: 中国农业出版社, 2005:154-157. |
[24] | 全国土壤普查办公室. 中国土壤[M]. 北京: 中国农业出版社, 1998:234-254. |
[25] | Lindsay W L. Chemical Equilibria in Soils[M]. New York: John Wiley and Sons, 1979:15-33. |
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