典型黑土春玉米化学肥料养分利用效率变化研究

doi:10.3864/j.issn.0578-1752.2019.16.008

Abstract

Abstract:

【Objective】Reducing chemical fertilizer input and improving nutrients use efficiency are important agricultural strategies in China. In view of the declining soil fertility and acidification of black soil as the result of chemical fertilizers unbalanced application, the aim of this study was to explore reducing chemical fertilizers input and improving nutrients use efficiency in black soil, so as to promote the balanced utilization of chemical fertilizers in black soil in China.【Method】These treatments included no-fertilizer (CK), no N application (PK), no P application (NK), no K application (NP) and the combination of nitrogen, phosphorus and potassium treatment (NPK). Crop yield, nutrients uptake, soil inorganic nitrogen, Olsen-P and NH₄OAc-K were determined in typical black soils from 2013 to 2016. 【Result】 The yield of spring maize in Heilongjiang was about 10 t·hm ^-2 per year. The yields and nutrients uptake by aboveground per year under NPK treatment were significantly higher than those under CK or PK treatments except for the year of 2013. The recovery efficiency, agronomic efficiency and partial productivity of N, P and K in NPK treatment increased year by year except for the P agronomic efficiency in 2016. During the period of 2013-2016 under NPK treatment, the averaged recovery efficiency of N, P and K was 45.8%, 6.1% and 3.5%, respectively; the averaged agronomic efficiency of N, P and K were 23.2 kg·kg ^-1, 7.2 kg·kg ^-1 and 5.0 kg·kg ^-1, respectively; and the averaged partial productivity of N, P and K are 58.3 kg·kg ^-1, 133.2 kg·kg ^-1 and 97.7 kg·kg ^-1, respectively. Soil mineral nitrogen test showed the alternative frozen and thawed promoted soil organic nitrogen mineralization from post-harvested to pre-sown in the following year. The averaged nutrients balances in the experimental four years showed that the rate of N or P in NPK treatment could meet the demand of P, K for spring maize, soil N or P was in the balanced status on the whole, and the luxury uptake of K by aboveground resulted in the loss status of soil potassium.【Conclusion】The continuous four years experiment in the typical black soil region showed that P and K rate greatly reduced and the use efficient of P and K increased with stable spring maize yield kept, while no chemical N fertilizer application only maintained maize yield in the first year, the decrease of maize yield and the increase of N use efficient occurred in the following years.

Key words: chemical fertilizer, nutrients use efficiency, yield of spring maize, nutrients uptake, soil available nutrients, nutrients balance, black soil

QIU ShaoJun, LI Ning, HE Ping, WEI Dan, JIN Liang, ZHAO ShiCheng, XU XinPeng, ZHOU Wei. Nutrients Use Efficiency Change of Chemical Fertilizers for Spring Maize in a Typical Black Soil[J].Scientia Agricultura Sinica, 2019, 52(16): 2824-2834.

Figures/Tables 9

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处理 Treatment	产量Yield (t·hm^-2)					收获指数Harvest index
处理 Treatment	2013	2014	2015	2016	平均 Average	2013	2014	2015	2016	平均 Average
CK	8.4a	5.0c	4.9b	5.0b	5.8b	0.51a	0.50a	0.44b	0.45b	0.47b
PK	8.8a	5.1c	5.4b	5.5b	6.2b	0.54a	0.44b	0.43b	0.44b	0.46b
NK	8.5a	8.9b	9.7a	11.4a	9.6a	0.53a	0.53a	0.51a	0.53a	0.52a
NP	8.5a	9.4ab	10.0a	11.0a	9.7a	0.52a	0.51a	0.51a	0.51a	0.51a
NPK	8.3a	10.1a	10.7a	11.9a	10.2a	0.53a	0.52a	0.51a	0.52a	0.52a

处理 Treatment	氮吸收量N uptake (kg N·hm^-2)					磷吸收量P uptake (kg P·hm^-2)					钾吸收量K uptake (kg K·hm^-2)
处理 Treatment	2013	2014	2015	2016	平均 Average	2013	2014	2015	2016	平均 Average	2013	2014	2015	2016	平均 Average
CK	150.0a	62.7c	65.4c	59.9b	84.5c	35.6a	20.8b	28.7c	14.1c	24.8c	144.9a	71.7c	78.6d	55.5c	87.7c
PK	150.7a	66.1c	79.0c	64.7b	91.4c	35.1a	24.7b	33.8bc	16.4bc	27.5bc	141.8a	82.0c	97.4cd	70.5bc	97.9c
NK	143.4a	135.0b	164.3b	159.7a	148.7b	33.6a	31.8a	33.2bc	19.4bc	29.5b	141.9a	115.5b	114.5bc	85.9c	114.5b
NP	156.9a	149.6ab	185.2a	159.3a	162.9a	33.3a	34.1a	37.5ab	20.0b	31.2ab	152.3a	120.1ab	136.2ab	122.4a	132.8ab
NPK	151.4a	159.3a	193.9a	178.4a	169.3a	33.0a	35.5a	42.4a	26.4a	34.3a	150.1a	128.9a	143.4a	131.0a	138.3a

处理 Treatment	2014						2015						2016
	播前Pre-sown			收获Post-harvested			播前Pre-sown			收获Post-harvested			播前Pre-sown			收获Post-harvested
	NO₃^--N	NH₄⁺-N	N_min	NO₃^--N	NH₄⁺-N	N_min	NO₃^--N	NH₄⁺-N	N_min	NO₃^--N	NH₄⁺-N	N_min	NO₃^--N	NH₄-N	N_min	NO₃^--N	NH₄⁺-N	N_min
CK	120.4a	41.7b	162.2a	61.7a	5.0a	66.6a	41.3c	108.9b	150.2c	53.5b	31.6a	85.1bc	36.3a	3.7a	40.0a	18.3a	14.1a	32.5a
PK	114.7a	68.6ab	183.3a	73.2a	7.1a	80.3a	62.2c	102.6b	164.8bc	57.0b	3.3a	60.3c	43.7a	7.7a	51.4a	21.0a	6.3b	27.3a
NK	94.1a	87.8a	181.8a	65.2a	10.1a	75.3a	99.2ab	108.9b	208.2ab	107.4a	10.6a	118.0a	68.9a	4.9a	73.8a	43.3a	4.5b	47.8a
NP	121.5a	75.9ab	197.4a	72.5a	8.2a	80.8a	71.3bc	111.1ab	182.4bc	117.7a	8.2a	125.9a	60.7ab	5.5a	66.2a	33.9a	4.6b	38.5a
NPK	159.0a	100.4a	259.5a	77.0a	9.9a	86.9a	114.6a	130.8a	245.4a	68.7b	5.3a	74.0c	66.3a	4.9a	71.2a	36.6a	6.2b	42.9a

处理 Treatment	速效磷Available Phosphorus						速效钾Available Potassium
	2014		2015		2016		2014		2015		2016
	播前 Pre-sown	收获 Post- harvested	播前 Pre-sown	收获 Post- harvested	播前 Pre-sown	收获 Post- harvested	播前 Pre-sown	收获 Post- harvested	播前 Pre-sown	收获 Post- harvested	播前 Pre-sown	收获 Post- harvested
CK	78.9b	84.0c	65.2c	68.1c	43.0a	39.8a	698.7b	797.4a	551.5a	477.2bc	504.6a	489.8a
PK	147.9a	136.6b	125.4a	95.7a	54.7a	46.9a	901.1a	838.4a	581.5a	591.1a	513.7a	508.5a
NK	95.0b	82.7c	75.6c	77.6bc	46.1a	39.0a	795.0ab	826.8a	593.7a	531.1ab	530.2a	609.2a
NP	147.5a	132.1b	108.2ab	94.1a	50.3a	49.0a	761.9b	803.6a	559.2a	427.5c	504.9a	487.1a
NPK	154.7a	149.9a	101.4b	86.9ab	53.4a	50.2a	767.0ab	837.4a	587.6a	532.1ab	520.3a	508.1a

处理 Treatment	氮平衡N balance (kg N·hm^-2)					磷平衡P balance (kg P·hm^-2)					钾平衡K balance (kg K·hm^-2)
处理 Treatment	2013	2014	2015	2016	平均 Average	2013	2014	2015	2016	平均 Average	2013	2014	2015	2016	平均 Average
CK	150.0a	62.7a	65.4a	59.9a	84.5a	35.6a	20.8b	28.7a	14.1b	24.8b	144.9a	71.7b	78.6b	55.5b	87.7b
PK	150.7a	66.1a	79.0a	64.7a	91.8a	1.5b	-8.9d	0.1c	-17.2d	-6.1d	54.6b	-5.1d	10.3d	-16.7c	10.8e
NK	-32.6b	-41.0c	-11.8c	-16.3b	-25.4c	33.6a	31.8a	33.2a	19.4a	29.5a	56.9b	24.5c	27.4d	-1.2c	26.9d
NP	-19.2b	-26.4bc	9.2b	-16.7b	-13.3b	-0.3b	0.5c	3.9bc	-13.6d	-2.4cd	152.3a	120.1a	136.2a	122.4a	122.1a
NPK	-25.0b	-16.8b	17.9b	2.4b	-6.8b	-0.6b	1.9c	8.2b	-7.3c	0.5c	62.1b	37.3c	53.8c	43.9b	41.7c

Nutrients Use Efficiency Change of Chemical Fertilizers for Spring Maize in a Typical Black Soil

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