稻麦轮作区连续秸秆还田和施肥条件下砂姜黑土无机磷分布特征

doi:10.11686/cyxb2018280

草业学报 ›› 2018, Vol. 27 ›› Issue (12): 58-68.DOI: 10.11686/cyxb2018280

稻麦轮作区连续秸秆还田和施肥条件下砂姜黑土无机磷分布特征

赵庆雷^{1, *}, 信彩云¹, 王瑜¹, 王佳², 刘奇华¹, 李景岭^{1, *}, 马加清¹

1.山东省水稻研究所,山东省水稻工程技术研究中心,山东济南 250100;
2.滨州市滨城区北镇街道办事处玉龙湖社区,山东滨州 256600

收稿日期:2018-05-07 修回日期:2018-06-25 出版日期:2018-12-20 发布日期:2018-12-20
通讯作者: E-mail:ljlsaas@126.com
作者简介:赵庆雷(1982-)，男，山东东阿人，助理研究员，硕士。E-mail： zqlok_193@163.com
基金资助:
山东省农业科学院青年科研基金项目(2016YQN12)，山东省重点研发计划(2017GNC11112，2016GNC111005)，山东省农业科学院农业科技创新工程-大田生态环境长期定位监测与评价(CXGC2016A05)，山东省现代农业产业技术体系水稻产业经济岗位(SDAIT-17-09)和国家水稻产业体系济宁综合试验站(CARS-01-75)资助。

Characteristics of inorganic phosphorus in lime concretion black soil under continuous straw-return and fertilization in a rice-wheat rotation area

ZHAO Qing-lei^{1, *}, XIN Cai-yun¹, WANG Yu¹, WANG Jia², LIU Qi-hua¹, LI Jing-ling^{1, *}, MA Jia-qing¹

1.Shandong Rice Research Institute, Shandong Rice Engineering Technology Research Center, Jinan 250100, China;
2.Yulong Lake Community, North Town Sub-district, Bincheng District, Binzhou City, Binzhou 256600, China

Received:2018-05-07 Revised:2018-06-25 Online:2018-12-20 Published:2018-12-20
Contact: E-mail:ljlsaas@126.com

摘要/Abstract

摘要： 为了揭示秸秆还田与化肥施用对砂姜黑土无机磷的影响,基于实施多年的秸秆还田与施肥定位试验,设置了常规施肥+秸秆全量还田(HN₁)、常规施肥量50%+秸秆全量还田(HN₄)、不施肥+秸秆全量还田(HN₀)、常规施肥+秸秆移除(N₁)、常规施肥量50%+秸秆移除(N₄)、不施肥+秸秆移除(N₀)处理,采用田间取样与室内化验分析相结合的方法研究了土壤不同形态无机磷的剖面分布及累积特点。结果表明,同等化肥施用水平下,秸秆还田较秸秆移除显著提高了土壤Ca₂-P和Fe-P的含量,提高幅度最高达219.05%和51.35%,两种形态无机磷占无机磷总量的百分比也显著提高;Ca₈-P和Al-P含量整体上有所降低,Ca₁₀-P含量显著降低,无机磷总量有所提高。秸秆还田配施化肥对土壤无机磷的活化效果随化肥施用量的减少和土层深度的增加而降低。秸秆还田不施化肥使土壤Ca₂-P、Ca₈-P、Al-P和Fe-P含量显著降低。与秸秆移除相比,秸秆还田配施化肥促进了Ca₁₀-P等潜在磷源的转化和分解。Ca-P(Ca₂-P、Ca₈-P、Ca₁₀-P)和Fe-P所占比例最高,为供试土壤无机磷的主要构成形态。常规施肥条件下秸秆还田促进了土壤速效磷(Olsen-P)含量的快速提升,常规施肥量50%条件下秸秆还田促进了表层土壤Olsen-P的提升,而无肥条件下秸秆还田对土壤Olsen-P含量的提升无明显效果。土壤Ca₂-P、Ca₈-P、Al-P和Fe-P与土壤Olsen-P的相关性均达到显著或极显著水平,表明4种无机磷与土壤Olsen-P关系密切,可能为土壤有效磷的重要来源。因而,秸秆还田不施化肥会加速土壤无机磷的耗竭,秸秆还田与化肥合理配施,可通过将缓效态无机磷转化为Ca₂-P和Fe-P等高活性无机磷,提高土壤供磷能力。

关键词: 稻麦轮作, 秸秆还田, 砂姜黑土, 无机磷, 剖面分布

Abstract: The aim of this study was to determine the effects of straw return and chemical fertilizer application on the inorganic phosphorus content in lime concretion black soil. Therefore, we conducted a multi-year field experiment with various straw return and fertilization treatments, and analyzed the profiles and accumulation characteristics of different forms of inorganic phosphorus in soil. The field experiment had six treatments: conventional fertilizer application+straw total return (HN₁); 50% of conventional fertilization+straw total return (HN₄); no fertilizer+straw total return (HN₀); conventional fertilization+straw removal (N₁); 50% of conventional fertilization+straw removal (N₄); and no fertilizer+straw removal (N₀). The results showed that under the same level of chemical fertilizer application, straw return significantly increased the contents of soil Ca₂-P and Fe-P by up to 219.05% and 51.35%, respectively, compared with those in the straw removal treatments. The proportions of Ca₂-P and Fe-P out of total inorganic phosphorus also increased significantly with straw return. In general, the Ca₈-P and Al-P contents decreased to some extent while Ca₁₀-P decreased significantly, and the total amount of inorganic phosphorus increased when straw was returned. The activation of inorganic phosphorus in soil with straw return and chemical fertilizer application decreased with decreasing amounts of fertilizer and increasing soil depth. The application of chemical fertilizers without straw return significantly reduced the contents of Ca₂-P, Ca₈-P, Al-P, and Fe-P in the soil. Compared with straw removal alone, straw removal+chemical fertilizer promoted the conversion and decomposition of potential phosphorus sources such as Ca₁₀-P. The main forms of inorganic P in soil were Ca-P (Ca₂-P, Ca₈-P, and Ca₁₀-P) and Fe-P. Under conventional fertilization conditions, straw return resulted in a rapid increase in Olsen-P content in soil. Under 50% conventional fertilization, straw return increased the Olsen-P content in surface soil. Returning straw to soil without fertilizer application did not significantly increase the Olsen-P content in soil. The correlations between soil Olsen-P and soil Ca₂-P, Ca₈-P, Al-P, and Fe-P reached significant or extremely significant levels, indicating that these four forms of inorganic P were closely related to soil Olsen-P, and may be important sources of available P in the soil. Therefore, the no-fertilizer and straw returning treatment could accelerate the depletion of inorganic P in soil. Together, the results showed that the rational application of straw and chemical fertilizers can improve the soil P supply by converting low-activity inorganic P into high-activity forms of inorganic P such as Ca₂-P and Fe-P.

Key words: rice-wheat rotation, straw returning, lime concretion black soil, inorganic phosphorus, profile distribution

赵庆雷, 信彩云, 王瑜, 王佳, 刘奇华, 李景岭, 马加清. 稻麦轮作区连续秸秆还田和施肥条件下砂姜黑土无机磷分布特征[J]. 草业学报, 2018, 27(12): 58-68.

ZHAO Qing-lei, XIN Cai-yun, WANG Yu, WANG Jia, LIU Qi-hua, LI Jing-ling, MA Jia-qing. Characteristics of inorganic phosphorus in lime concretion black soil under continuous straw-return and fertilization in a rice-wheat rotation area[J]. Acta Prataculturae Sinica, 2018, 27(12): 58-68.

参考文献

[1] Gilbert N.Environment: The disappearing nutrient. Nature, 2009, 461(7265): 716-718.
[2] Li Q K, Zhu Z L, Yu T R.Fertilizer problems during Chinese agriculture sustained development. Nanchang: Jiangxi Science and Technology Press, 1998: 112-119.
李庆逵, 朱兆良, 于天仁. 中国农业持续发展中的肥料问题. 南昌: 江西科学技术出版社, 1998: 112-119.
[3] Fang F, Li X, Shi Z L, et al. Analysis on distribution and use structure of crop straw resources in Huang-Huai-Hai Plain of China. Transactions of the Chinese Society of Agricultural Engineering, 2015, 31(2): 228-234.
方放, 李想, 石祖梁, 等. 黄淮海地区农作物秸秆资源分布及利用结构分析. 农业工程学报, 2015, 31(2): 228-234.
[4] Liang G Q, Lin B, Lin J X, et al. Effect of long term fertilization on the forms of phosphorus sorption and desorption in soils with different phosphorus levels. Plant Nutrition and Fertilizer Science, 2001, 7(3): 241-248.
梁国庆, 林葆, 林继雄, 等. 长期施肥对石灰性潮土无机磷形态的影响. 植物营养与肥料学报, 2001, 7(3): 241-248.
[5] Xu Y, Zhang R S.Dynamics of soil phosphorus as affected by tillage on the loess plateau in central Gansu, China. Acta Pedologica Sinica, 2017, 54(3): 670-681.
许艳, 张仁陟. 陇中黄土高原不同耕作措施下土壤磷动态研究. 土壤学报, 2017, 54(3): 670-681.
[6] Feng Y H, Zhang Y Z, Huang Y X.Effects of rice-based cropping system, application rate of organic manure and ground water level on inorganic phosphorus forms in paddy soil derived from red earth. Scientia Agricultura Sinica, 2009, 42(10): 3551-3558.
冯跃华, 张杨珠, 黄运湘. 不同稻作制、有机肥用量及地下水深度对红壤性水稻土无机磷形态的影响. 中国农业科学, 2009, 42(10): 3551-3558.
[7] Wang Y L, Zhang C C, Ma Q, et al. Effect of fertilization on accumulation and profile distribution of phosphorus in aquic brown soil. Acta Pedologica Sinica, 2013, 50(4): 135-142.
王月立, 张翠翠, 马强, 等. 不同施肥处理对潮棕壤剖面磷素累积与分布的影响. 土壤学报, 2013, 50(4): 135-142.
[8] Li X, Liu Y X, Liu Y R, et al. Interactive effects of combined inorganic and organic fertilizers on phosphorous adsorption, desorption and mobility. Journal of Nuclear Agricultural Sciences, 2013, 27(2): 253-259.
李想, 刘艳霞, 刘益仁, 等. 有机无机肥配合对土壤磷素吸附、解吸和迁移特性的影响. 核农学报, 2013, 27(2): 253-259.
[9] Zhang B X, Li Y, Qin S, et al. The characteristic of spatial distribution on inorganic phosphorus fractions accumulation and migration in yellow soil under long-term fertilization. Acta Agriculturae Boreali-Sinica, 2016, 31(3): 212-217.
张邦喜, 李渝, 秦松, 等. 长期施肥下黄壤无机磷组分空间分布特征. 华北农学报, 2016, 31(3): 212-217.
[10] Liu S Y.Effects of organic and inorganic fertilization on alkali-phosphatase and soil phosphates in the irrigated farming sierozem. Chinese Journal of Soil Science, 2011, 42(3): 670-675.
刘淑英. 有机无机肥配施对灌耕灰钙土碱性磷酸酶和土壤磷素的影响. 土壤通报, 2011, 42(3): 670-675.
[11] Zhan H Q, Yan S S, Wang J R, et al. Effects of rice straw returning on activities of soil phosphatase and available P values in soil. Crop, 2015, (2): 78-83.
战厚强, 颜双双, 王家睿, 等. 水稻秸秆还田对土壤磷酸酶活性及速效磷含量的影响. 作物杂志, 2015, (2): 78-83.
[12] Yan C, Zhan H Q, Yan S S, et al. Effects of straw retention and phosphorous fertilizer application on available phosphorus content in the soil solution during rice growth. Paddy and Water Environment, 2016, 14: 61-69.
[13] Wang X B, Cai D X, Zhang J Q, et al. Effects of corn stover incorporated in dry farmland on soil fertility. Scientia Agricultural Sinica, 2000, 33(4): 54-61.
王小彬, 蔡典雄, 张镜清, 等. 旱地玉米秸秆还田对土壤肥力的影响. 中国农业科学, 2000, 33(4): 54-61.
[14] Bao S D.The soil agricultural chemistry analysis. Beijing: Chinese Agriculture Press, 2000.
鲍士旦. 土壤农化分析. 北京: 中国农业出版社, 2000.
[15] Jiang B F, Gu Y C.A suggested fractionation scheme of inorganic phosphorus in calcareous soils. Scientia Agricultura Sinica, 1989, 22(3): 58-66.
蒋柏藩, 顾益初. 石灰性土壤无机磷分级体系的研究. 中国农业科学, 1989, 22(3): 58-66.
[16] Gu Y C, Jiang B F.Measure methods for inorganic phosphorus in calcareous soils. Soils, 1990, 22(2): 101-102, 110.
顾益初, 蒋柏藩. 石灰性土壤无机磷分级的测定方法. 土壤, 1990, 22(2): 101-102, 110.
[17] Guan L Z, Chan Z X, Zhang J H, et al. Influence of carbonized maize stalks on fractions and availability of phosphorus in brown soil. Scientia Agricultural Sinica, 2013, 46(10): 2050-2057.
关连珠, 禅忠祥, 张金海, 等. 炭化玉米秸秆对棕壤磷素组分及有效性的影响. 中国农业科学, 2013, 46(10): 2050-2057.
[18] Cheng Y H, Huang Q R, Wu L, et al. Effects of straw mulching and vetiver grass hedgerows on soil enzyme activities and soil microbial community structure in red soil sloping land. Scientia Agricultural Sinica, 2017, 50(23): 4602-4612.
成艳红, 黄欠如, 武琳, 等. 稻草覆盖和香根草篱对红壤坡耕地土壤酶活性和微生物群落结构的影响. 中国农业科学, 2017, 50(23): 4602-4612.
[19] Huang R, Gao M, Wan Y L, et al. Effects of straw in combination with reducing fertilization rate on soil nutrients and enzyme activity in the paddy-vegetable rotation soils. Environmental Science, 2016, 37(11): 4446-4456.
黄容, 高明, 万毅林, 等. 秸秆还田与化肥减量配施对稻-菜轮作下土壤养分及酶活性的影响. 环境科学, 2016, 37(11): 4446-4456.
[20] Mao X L, Xu X L, Lu K P, et al. Effect of 17 years of organic and inorganic fertilizer applications on soil phosphorus dynamics in a rice-wheat rotation cropping system in eastern China. Journal of Soils and Sediments, 2015, 15: 1889-1899.
[21] Huang X X, Liao W H, Liu J L, et al. Effects of long-term straw return on various fractions of phosphorus in fluvo-aquic soil. Acta Pedologica Sinica, 2016, 53(3): 779-789.
黄欣欣, 廖文华, 刘建玲, 等. 长期秸秆还田对潮土土壤各形态磷的影响. 土壤学报, 2016, 53(3): 779-789.
[22] Liao W H, Liu J L, Huang X X, et al. Responses of vegetable yield and changes of phosphorus fractions in cinnamon soil to long-term excess phosphorus application. Plant Nutrition and Fertilizer Science, 2017, 23(4): 894-903.
廖文华, 刘建玲, 黄欣欣, 等. 潮褐土上蔬菜产量和土壤各形态磷变化对长期过量施磷的响应. 植物营养与肥料学报, 2017, 23(4): 894-903.
[23] Han X R, Ma L L, Wang Y Q, et al. Effect of long-term fertilization on inorganic phosphorus forms and profile distribution in brown soil. Journal of Soil and Water Conservation, 2007, 21(4): 51-55, 144.
韩晓日, 马玲玲, 王晔青, 等. 长期定位施肥对粽壤无机磷形态及剖面分布的影响. 水土保持学报, 2007, 21(4): 51-55, 144.
[24] Wang D Z, Guo X S, Liu F, et al. Effects of long-term fertilization on inorganic phosphorus fractions in lime concretion black soil. Plant Nutrition and Fertilizer Science, 2009, 15(3): 601-606.
王道中, 郭熙盛, 刘枫, 等. 长期施肥对砂姜黑土无机磷形态的影响. 植物营养与肥料学报, 2009, 15(3): 601-606.
[25] Zhang S X, Zhang W J, Shen R F, et al. Variation of soil quality in typical farmlands in China under long-term fertilization and research expedition. Plant Nutrition and Fertilizer Science, 2015, 21(6): 1389-1393.
张淑香, 张文菊, 沈仁芳, 等. 我国典型农田长期施肥土壤肥力变化与研究展望. 植物营养与肥料学报, 2015, 21(6): 1389-1393.
[26] Gao J S, Huang J, Dong C H, et al. Effects of long-term combined application of organic and chemical fertilizers on rice yield and soil available nutrients. Acta Pedologica Sinica, 2014, 51(2): 314-324.
高菊生, 黄晶, 董春华, 等. 长期有机无机肥配施对水稻产量及土壤有效养分影响. 土壤学报, 2014, 51(2): 314-324.
[27] Zhang T, Xu H, Ru S H, et al. Distribution of phosphorus in soil profiles after continuous application of different fertilizers. Environmental Science, 2017, 12(38): 5247-5255.
张田, 许浩, 茹淑华, 等. 不同有机肥中磷在土壤剖面中累积迁移特征与有效性差异. 环境科学, 2017, 12(38): 5247-5255.
[28] Wei M, Zhang A J, Zhuge Y P, et al. Effect of different long-term fertilization on winter wheat yield and soil nutrient contents in yellow fluvo-aquic soil area. Journal of Plant Nutrition and Fertilizer, 2017, 23(2): 304-312.
魏猛, 张爱君, 诸葛玉平, 等. 长期不同施肥对黄潮土区冬小麦产量及土壤养分的影响. 植物营养与肥料学报, 2017, 23(2): 304-312.
[29] Lu Y H, Liao Y L, Nie J, et al. Evolution of soil phosphorus in reddish paddy soil under long-term fertilization varying in formulation and its response to P balance. Acta Pedologica Sinica, 2017, 54(6): 1471-1485.
鲁艳红, 廖育林, 聂军, 等. 长期施肥红壤性水稻土磷素演变特征及对磷盈亏的响应. 土壤学报, 2017, 54(6): 1471-1485.
[30] Han X F, Gao M, Xie D T, et al. Inorganic phosphorus in a regosol (purple) soil under long-term phosphorus fertilization. Acta Prataculturae Sinica, 2016, 25(4): 63-72.
韩晓飞, 高明, 谢德体, 等. 长期定位施肥条件下紫色土无机磷形态演变研究. 草业学报, 2016, 25(4): 63-72.
[31] Guo Z F, Tu S X, Li X H, et al. Contribution of soil inorganic phosphorus on plant nutrition in lime soil. Scientia Agricultura Sinica, 1997, 30(1): 26-32.
郭智芬, 涂书新, 李晓华, 等. 石灰性土壤不同形态无机磷对作物磷营养的贡献. 中国农业科学, 1997, 30(1): 26-32.
[32] Han X F, Xie D T, Gao M, et al. Effects of reduced-phosphorus fertilizer and combinations of organic fertilizers on phosphorus leaching in purple paddy soil with conventional paddy-upland rotation tillage. Acta Ecologica Sinica, 2017, 37(10): 3525-3532.
韩晓飞, 谢德体, 高明, 等. 减磷配施有机肥对水旱轮作紫色水稻土磷素淋失的消减效应. 生态学报, 2017, 37(10): 3525-3532.
[33] E S Z, Yang Z Q, Zeng X B, et al. Soil Olsen-P content changing trend and its relationship with phosphorus surplus and crop yield under long-term fertilization in loessial soil region on the Loess Plateau, China. Chinese Journal of Applied Ecology, 2017, 28(11): 3589-3598.
俄胜哲, 杨志奇, 曾希柏, 等. 长期施肥黄绵土有效磷含量演变及其与磷素平衡和作物产量的关系. 应用生态学报, 2017, 28(11): 3589-3598.

稻麦轮作区连续秸秆还田和施肥条件下砂姜黑土无机磷分布特征

Characteristics of inorganic phosphorus in lime concretion black soil under continuous straw-return and fertilization in a rice-wheat rotation area

RichHTML

PDF (PC)

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 9

编辑推荐

Metrics

[1]	杨封科, 何宝林, 张国平, 张立功, 高应平. 膜下秸秆还田添加腐解剂对旱地土壤碳氮积累及土壤肥力性状的影响[J]. 草业学报, 2019, 28(9): 67-76.
[2]	张建军, 党翼, 赵刚, 樊廷录, 王磊, 程万莉, 李尚中, 王淑英, 雷康宁, 张朝伟. 秸秆还田与氮肥减施对旱地春玉米产量及生理指标的影响[J]. 草业学报, 2019, 28(10): 156-165.
[3]	韩晓飞, 高明, 谢德体, 王子芳, 陈晨. 长期定位施肥条件下紫色土无机磷形态演变研究[J]. 草业学报, 2016, 25(4): 63-72.
[4]	徐国伟,李帅,赵永芳,陈明灿,李友军. 秸秆还田与施氮对水稻根系分泌物及氮素利用的影响研究[J]. 草业学报, 2014, 23(2): 140-146.
[5]	罗珠珠,黄高宝,蔡立群,张仁陟,李玲玲,谢军红. 不同耕作方式下春小麦生育期土壤酶时空变化研究[J]. 草业学报, 2012, 21(6): 94-101.
[6]	张仁陟,罗珠珠,蔡立群,黄高宝,李玲玲,谢军红. 长期保护性耕作对黄土高原旱地土壤物理质量的影响[J]. 草业学报, 2011, 20(4): 1-10.
[7]	郭彦军,倪郁,韩建国. 农牧交错带人工种草对土壤磷素有效性的影响[J]. 草业学报, 2010, 19(2): 169-174.
[8]	杨晶,沈禹颖,南志标,高崇岳,牛伊宁,王先之,罗彩云,李光棣². 保护性耕作对黄土高原玉米-小麦-大豆轮作系统产量及表层土壤碳管理指数的影响[J]. 草业学报, 2010, 19(1): 75-82.
[9]	李昌新,赵锋,芮雯奕,黄欠如,余喜初,张卫建. 长期秸秆还田和有机肥施用对双季稻田冬春季杂草群落的影响[J]. 草业学报, 2009, 18(3): 142-147.