家禽粪便、明矾处理过的粪便以及硝酸铵对土壤中铝有效性的长期影响。
Long-term effects of poultry litter, alum-treated litter, and ammonium nitrate on aluminum availability in soils.
作者信息
Moore P A, Edwards D R
机构信息
USDA-ARS, Plant Sciences 115, University of Arkansas, Fayetteville, 72701, USA.
出版信息
J Environ Qual. 2005 Nov 7;34(6):2104-11. doi: 10.2134/jeq2004.0472. Print 2005 Nov-Dec.
Research has shown that alum [Al(2)(SO(4))(3).14H(2)O] applications to poultry litter can greatly reduce phosphorus (P) runoff, as well as decrease ammonia (NH(3)) volatilization. However, the long-term effects of fertilizing with alum-treated litter are unknown. The objectives of this study were to evaluate the long-term effects of normal poultry litter, alum-treated litter, and ammonium nitrate (NH(4)NO(3)) on aluminum (Al) availability in soils, Al uptake by tall fescue (Festuca arundinacea Schreb.), and tall fescue yields. A long-term study was initiated in April of 1995. There were 13 treatments (unfertilized control, four rates of normal litter, four rates of alum-treated litter, and four rates of NH(4)NO(3)) in a randomized block design. All fertilizers were broadcast applied to 52 small plots (3.05 x 1.52 m) cropped to tall fescue annually in the spring. Litter application rates were 2.24, 4.49, 6.73, and 8.98 Mg ha(-1) (1, 2, 3, and 4 tons acre(-1)); NH(4)NO(3) rates were 65, 130, 195, and 260 kg N ha(-1) and were based on the amount of N applied with alum-treated litter. Soil pH, exchangeable Al (extracted with potassium chloride), Al uptake by fescue, and fescue yields were monitored periodically over time. Ammonium nitrate applications resulted in reductions in soil pH beginning in Year 3, causing exchangeable Al values to increase from less than 1 mg Al kg(-1) soil in Year 2 to over 100 mg Al kg(-1) soil in Year 7 for many of the NH(4)NO(3) plots. In contrast, normal and alum-treated litter resulted in an increase in soil pH, which decreased exchangeable Al when compared to unfertilized controls. Severe yield reductions were observed with NH(4)NO(3) beginning in Year 6, which were due to high levels of acidity and exchangeable Al. Aluminum uptake by forage and Al runoff from the plots were not affected by treatment. Fescue yields were highest with alum-treated litter (annual average = 7.36 Mg ha(-1)), followed by normal litter (6.93 Mg ha(-1)), NH(4)NO(3) (6.16 Mg ha(-1)), and the control (2.89 Mg ha(-1)). These data indicate that poultry litter, particularly alum-treated litter, may be a more sustainable fertilizer than NH(4)NO(3).
研究表明,将明矾[Al₂(SO₄)₃·14H₂O]施用于家禽粪便可大幅减少磷(P)径流,同时减少氨(NH₃)挥发。然而,施用经明矾处理的粪便进行施肥的长期影响尚不清楚。本研究的目的是评估普通家禽粪便、经明矾处理的粪便和硝酸铵(NH₄NO₃)对土壤中铝(Al)有效性、高羊茅(Festuca arundinacea Schreb.)对铝的吸收以及高羊茅产量的长期影响。1995年4月启动了一项长期研究。采用随机区组设计,有13种处理(未施肥对照、四种普通粪便施用量、四种经明矾处理的粪便施用量和四种NH₄NO₃施用量)。每年春季,所有肥料均撒施于52个种植高羊茅的小地块(3.05×1.52米)上。粪便施用量分别为2.24、4.49、6.73和8.98 Mg ha⁻¹(1、2、3和4吨英亩⁻¹);NH₄NO₃施用量分别为65、130、195和260 kg N ha⁻¹,且基于经明矾处理的粪便中的氮施用量。随着时间的推移,定期监测土壤pH值、可交换铝(用氯化钾提取)、羊茅对铝的吸收以及羊茅产量。从第3年开始,施用硝酸铵导致土壤pH值降低,使得许多NH₄NO₃地块的可交换铝值从第2年的低于1 mg Al kg⁻¹土壤增加到第7年的超过100 mg Al kg⁻¹土壤。相比之下,普通粪便和经明矾处理的粪便导致土壤pH值升高,与未施肥对照相比,可交换铝减少。从第6年开始,观察到施用NH₄NO₃导致产量严重下降,这是由于高酸度和可交换铝含量所致。处理对牧草对铝的吸收以及地块的铝径流没有影响。经明矾处理的粪便的羊茅产量最高(年平均 = 7.36 Mg ha⁻¹),其次是普通粪便(6.93 Mg ha⁻¹)、NH₄NO₃(6.16 Mg ha⁻¹)和对照(2.89 Mg ha⁻¹)。这些数据表明,家禽粪便,特别是经明矾处理的粪便,可能是比NH₄NO₃更具可持续性的肥料。
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