稻田冬种绿肥对水稻产量和土壤肥力的影响

为探讨冬季种植绿肥作物改良土壤的生态作用, 以冬闲连作为对照, 通过连续8年的定位试验研究了冬种绿肥(紫云英、油菜和黑麦草)收获后翻压还田对后作水稻产量及土壤肥力的影响。结果表明: 连续8年冬种绿肥期间, 冬种绿肥各处理的水稻平均产量均高于冬闲对照, 但不同处理增产效果有所不同, 其中紫云英 早稻 晚稻处理增产效果最明显, 为10.48%, 其次是油菜 早稻 晚稻处理(7.31%), 黑麦草 早稻 晚稻处理的增产效果较差, 仅为5.76%。紫云英 早稻 晚稻处理的土壤pH和碱解氮含量最高, 与其他处理相比, pH增加0.58%~1.37%, 碱解氮增加6.59%~35.35%。黑麦草 早稻 晚稻处理的土壤有机质、有效磷、速效钾含量和C/N在各处理中最高, 分别较其他处理高2.99%~4.98%、19.25%~31.05%、16.97%~22.15%和0.97%~6.61%。相关性分析结果表明, 水稻产量与每穗颖花数、结实率、千粒重及土壤碱解氮、有效磷极显著相关(P<0.01), 与每穗粒数、有机质、速效钾显著相关(P<0.05), 而与穗长、有效穗数及土壤pH和C/N相关不显著; 水稻产量各构成要素与土壤养分之间的关系极为密切。综合来看, 稻田冬种绿肥有利于增加水稻产量和改善土壤肥力。     

长期施用绿肥对红壤稻田水稻产量和土壤养分的影响

通过对26年长期定位试验结果的统计分析,结果表明:绿肥与化肥长期配合施用有利于水稻稳产增产,减少化肥的使用量,提高化肥NPK养分的农学利用效率达60%以上。26年水稻平均产量以OM3处理(紫云英+猪粪)最高,比CK增产64.47%,比NPK处理增产6.86%;其化肥养分农学效率为16.33kg/kg,比NPK处理化肥养分农学效率高118.9%。绿肥与化肥长期配合施用土壤有机质、全氮和全磷均有所积累,积累的量与肥料施用量及有机肥种类相关,以紫云英+猪粪处理最优。土壤钾素均表现亏缺,土壤全钾和速效钾均低于试验前,亏缺幅度最小的是紫云英+稻草处理,其土壤全钾和速效钾分别比对照高4.28%和13.94%。通过对土壤有机质、全氮、全磷和全钾与水稻产量关性分析,相关系数最高的为土壤全钾(r=0.808**),说明缺钾已成为限制红壤稻田高产的主要肥力因子。     

Different response of silicate fertilizer having electron acceptors on methane emission in rice paddy soil under green manuring

Cultivation of green manure plants during the fallow season in rice paddy soil has been strongly recommended to improve soil properties. However, green manuring may impact greenhouse gas emission, methane (hereafter, CH₄) in particular, under the flooded rice cultivation and thus, application of chemical amendments being electron acceptors can be an effective mitigation strategy to reduce CH₄ emissions in irrigated rice (Oryza sativa L.) field amended with green manure. To investigate the effect of iron (Fe) slag silicate fertilizer (hereafter, silicate fertilizer), which was effective in reducing CH₄ emission and increasing rice productivity, in green manure-amended paddy soil, the aboveground biomass of Chinese milk vetch (hereafter, vetch) was added at rates of 0, 10, 20, and 40 Mg (fresh weight) ha⁻¹ before the application of silicate fertilizer, which was added at rates of 0 and 2.3 Mg ha⁻¹. Silicate fertilization reduced the seasonal CH₄ flux by ca. 14.5% and increased rice yield by ca. 15.7% in the control (no vetch application) treatment. However, CH₄ production was increased by silicate fertilization in vetch-treated soil particularly at the initial rice growing stage, which was probably due to the enhanced decomposition of added organic matters by the silicate liming effect. In conclusion, silicate fertilization is not effective in reducing CH₄ production in green manure-amended rice paddy soils and its use should be properly controlled.     

长期冬种绿肥改变红壤稻田土壤微生物生物量特性

以进行了31年的双季稻-冬绿肥长期定位试验的红壤性水稻土为对象,研究了长期冬种绿肥条件下土壤微生物生物量特性的季节变化,为阐释冬绿肥措施在稻田生态系统土壤碳氮转化中的作用机制提供理论基础。试验包括双季稻-紫云英(RRV)、双季稻-冬油菜(RRP)、双季稻-黑麦草(RRG)及双季稻-冬闲(RRF)4个处理,在典型时期(绿肥盛花期、绿肥翻压后、早稻成熟期、晚稻收获后)采集土壤样品,分析土壤微生物生物量碳氮及微生物商等方面的变化。结果表明,3种冬绿肥均提高了土壤微生物生物量碳(SMBC)、微生物生物量氮(SMBN)和微生物商,在土壤性质相对稳定的晚稻收获后均显著高于对照处理,全年平均值也多显著高于对照处理。豆科绿肥紫云英对SMBC和SMBN的提高作用最显著,晚稻收获后相对冬闲分别提高了21.12%和98.45%,全年平均值分别提高了15.92%和36.49%。取样时期对SMBC、SMBN和微生物商有较大的影响,但变化趋势基本一致,即绿肥翻压前后无明显变化,早稻成熟期降至最低,至晚稻收获后再次上升。SMBC/SMBN比值在不同绿肥处理间差异不大,但有明显的季节变化,早稻成熟期较高而晚稻收获后降低。因此,南方稻田冬种绿肥后土壤微生物特性明显改善,冬种绿肥是提升稻田土壤肥力的高效措施。     

太湖地区稻田绿肥固氮量及绿肥还田对水稻产量和稻田土壤氮素特征的影响

通过田间试验,利用15N自然丰度法,研究了太湖地区水稻土冬季绿肥的固氮量,以及绿肥还田后配施氮肥对水稻产量、稻田土壤供氮能力及土壤氮素淋失特征的影响。试验结果表明,紫云英和蚕豆当季分别能固定氮约32.8和68.8 kg km-2进入稻田生态系统以培肥土壤和供下季水稻利用。蚕豆秸秆还田后基本能满足水稻生长所需的氮,紫云英和蚕豆还田施氮120 kg km-2时,既可保证水稻较高产量,又节约当季化学氮肥45%～55%。紫云英和蚕豆还田不施氮肥处理,整个生长期耕层土壤溶液NH+4-N、NO-3-N和TN浓度均低于配施氮肥的处理;蚕豆还田处理土壤溶液TN浓度高于紫云英还田处理。随氮肥用量增加,NH+4-N、NO-3-N和TN浓度有增加趋势,不同施氮量间差异不显著。绿肥-水稻轮作,紫云英和蚕豆还田土壤氮素淋溶显著降低。配施氮肥增加了土壤氮的淋失量,尤其施氮300 kg km-2处理,土壤淋溶液NH+4-N、TN浓度显著高于施氮0～240 kg km-2的处理。     

利于水稻氮素吸收的绿肥翻压量和施氮水平研究

【目的】 紫云英是我国南方稻区重要的冬季绿肥,具有固定碳素、改善土壤物理性状、提高土壤养分含量等效果,能为后茬水稻提供良好的生长环境。本研究为探明水稻对氮素的吸收利用特性,为水稻高产栽培中氮肥的合理运筹和水稻氮素营养性状改良提供依据。 【方法】 在“紫云英–双季稻”耕作制度轮作土壤上,进行田间 4 × 4 双因素裂区试验。每小区收获的紫云英全部翻压为 100% 翻压,设不翻压、翻压 30%、60%、100% 4 个水平;每个翻压水平处理下,设置不施氮肥、施常规氮量 (N 150 kg/hm2) 的 30%、60% 和 100%,共 16 个处理。分别在分蘖期、孕穗期、抽穗期、灌浆期、成熟期取水稻植株样品,调查水稻氮素吸收利用特性。 【结果】 水稻群体干物积累量随生育进程处理间差异逐渐增大。抽穗期以 M_30% + N₀ 处理最高,M_60% + N_60% 处理次之,对照 (M₀ + N₀) 最低,此阶段是水稻群体物质积累量全生育期中差异最大的时期,最高的 M_30% + N₀ 处理较对照和其他处理平均高 79.02% 和 45.04%,此阶段的干物质积累量占总干物质积累量的比例为 23.19%～44.23%。分蘖期、灌浆期和成熟期干物积累量均以 M_60% + N_60% 处理最高,对照最低,在成熟期 M_60% + N_60% 处理群体总干物质重为 13.14 t/hm2,较对照高 53.15%。不同生育期水稻植株含氮量和吸氮量处理间不同。孕穗期、抽穗期和成熟期植株含氮量均以 M_60% + N_60% 处理最高,较其他处理平均分别高 20.71%、14.84% 和 15.44%;分蘖期、孕穗期、抽穗期和成熟期植株吸氮量也以 M_60% + N_60% 处理最高,对照最低,氮肥与冬种绿肥有显著协同效应。水稻氮素阶段吸收量及其占总吸收量的比例存在明显差异。分蘖期前、孕穗至抽穗期和抽穗至成熟期均是紫云英翻压 60% + 施氮 60% 处理的吸收量高于其他处理,平均分别高 29.89%、79.46% 和 121.1%;而分蘖至孕穗期是 M_100% + N_100% 处理达到最大,较其他处理平均高 51.87%。 【结论】 综合来看,供试条件下,在 “紫云英–双季稻” 种植体系中,M_60% + N_60% 处理能够提高氮肥利用效率,改善稻田氮素循环,对于实现水稻氮素高效吸收和利用具有重要意义。      

Sesbania rostrata green manure and the nitrogen content of rice crop and soil

The effects of four treatments upon the N content of rice crop and soil in 1m² irrigated microplots were compared: (1) PK fertilization + Sesbania rostrata (inoculated stems) ploughed in as green manure when it was 52 days old. (2) PK fertilization + S. rostrata (non-inoculated stems) ploughed in as green manure. (3) PK fertilization + ammonium sulphate (60kg N ha^?1). (4) PK fertilization alone (control).The application of chemical N fertilizer (treatment 3) increased the grain yield by 169 g m^?2 (1.69t ha^?1). whereas incorporating S. rostrata as green manure resulted in a grain yield increase of 372 g m^?2 (3.72t ha^?1). N₂ fixed by S. rostrata was estimated to be at least 26.7 g m^?2 (267kg N ha^?1), one third being transferred to the crop and two thirds to the soil.     

水稻栽后施绿肥对其生长发育及土壤肥力的影响

水稻栽后在行间施绿肥，既保持了深施绿肥培肥土壤的作用，又克服了栽前常规施绿肥影响水稻生长发育，甚至造成当季减产的弊端。     

长期翻压绿肥对提高灌漠土土壤肥力和作物产量的贡献

  【目的】  研究河西绿洲灌区灌漠土长期施用绿肥培肥土壤和作物增产的机理。  【方法】  灌漠土培肥武威长期定位试验始于1988年,种植制度为小麦/玉米间作,供试绿肥为箭筈豌豆。选择绿肥磷肥配施(GP)、绿肥氮磷配施[1/2 (G+N) P]、氮磷配施(NP)、空白对照(CK) 4个处理,调查了作物产量和产量构成因素;2018年取0—20 cm耕层土壤样品,测定pH、有机质和养分含量。  【结果】  GP和1/2 (G+N) P处理均显著提高了灌漠土土壤肥力和作物产量。与试验初始值相比,GP、1/2 (G+N) P处理土壤有机质31年后分别增加了68.8%、56.6%,全氮分别增加了75.8%、56.3%,全钾分别增加了16.1%、18.0%,而全磷分别降低了20.3%、27.8%;与NP处理相比,GP和1/2 (G+N) P处理土壤有机质分别增加了29.0%、19.6%,全氮分别增加了43.3%、27.4%,全磷分别增加了18.4%、7.2%,全钾分别增加了1.7%、3.3%。GP和1/2 (G+N) P处理的小麦产量与NP处理差异显著,分别较NP处理增加305 kg/hm2、248 kg/hm2,增幅分别为8.0%、6.5%。NP和1/2 (G+N) P处理的玉米产量与GP处理差异显著,分别较GP处理增加1538 kg/hm2、1503 kg/hm2,增幅分别为20.3%、19.8%。小麦/玉米间作体系下,GP、1/2 (G+N) P处理的31年肥料贡献率(FCR)平均分别为0.53、0.59,变异系数(CV)分别为0.23、0.20,可持续性指数(SYI)分别为0.54、0.62。  【结论】  绿肥与氮磷化肥配施均能持续显著提高土壤有机质、全氮、全钾含量,提高肥料贡献率及作物产量稳定性和可持续性。小麦、玉米产量与土壤全磷和有效磷含量显著相关。因此,采用适宜绿肥用量和增加氮磷化肥用量的绿肥化肥配施方式,是甘肃河西绿洲灌区灌漠土上小麦玉米生产经济和生态效益双赢的施肥方式。     

冬季覆盖作物残茬还田对双季稻田土壤有机碳和碳库管理指数的影响

研究冬季不同覆盖作物残茬还田后稻田土壤总有机碳、活性有机碳含量和碳库管理指数的变化, 对合理利用冬闲稻田, 发展冬季覆盖作物, 以及科学评价不同种植模式具有重要意义。本研究以不同冬季覆盖作物-双季稻定位试验为研究对象, 采用田间小区试验方法, 分析了黑麦草-双季稻(T1)、紫云英-双季稻(T2)和油菜-双季稻(T3) 3种种植模式不同冬季覆盖作物残茬还田后对土壤耕层(0~20 cm)总有机碳、活性有机碳含量的影响, 并计算了各处理的碳库活度、碳库活度指数、碳库指数和碳库管理指数。结果表明, 与冬闲-双季稻(对照)相比, T1、T2和T3处理的冬季覆盖作物残茬还田均提高了稻田土壤总有机碳和活性有机碳含量, 其大小顺序均表现为T2>T1>T3>CK。其中, 各处理稻田土壤总有机碳含量均显著高于对照, 早稻收获时T1、T2和T3处理土壤总有机碳含量两年平均分别比对照增加6.73%、10.53%和4.79%, 晚稻收获时两年平均分别增加4.16%、6.20%和2.37%; T1和T2 处理土壤活性有机碳含量均显著高于对照, 早稻收获时两年平均分别比对照增加10.52%和21.52%, 晚稻收获时两年平均分别增加11.99%和15.59%。冬季覆盖作物残茬还田提高了土壤碳库活度、碳库活度指数、碳库指数和土壤碳库管理指数, 其大小顺序均表现为T2>T1>T3。总的来说, 各处理中以紫云英残茬还田的效果为最好, 黑麦草和油菜残茬还田的效果次之。     

Effect of seedling transplanting date on methane emission from rice paddy soil during cultivation

In most temperate mono-rice cultivation systems like Korea, the local recommended transplanting date of rice (Oryza sativa L.) seedlings is proposed by the government agency considering climate, rice cultivar, rice productivity and quality, etc. Recently the transplanting of rice seedlings earlier than the recommended transplanting date (RTD) has been adopted by the local farmers to get high yield and to harvest earlier for higher market value. Earlier transplanting than RTD might influence methane (CH₄) emission due to the prolonged cultivation period, but its effect was not evaluated well so far. In this study, the effects of seedling transplanting date on CH₄ emission and rice productivity were investigated for two years in a general paddy soil. The 30-day old seedlings were transplanted on the local RTD (every June 15) as the control, and at 30 and 15 days before and 15 days after the RTD for comparison. There was no difference on CH₄ flux pattern among the treatments, but the earlier transplanting before the RTD significantly (P ?≤?0.05) increased total CH₄ emissions during rice cultivation due to the extended soil flooding period and improved plant growth. Rice grain yield was increased by earlier transplanting, but the values were not significantly different from those of transplanting practices on RTD and 15 days before RTD. Therefore, among all the treatments, the lowest total CH₄ emission per grain yield was observed in the RTD treatment. Conclusively, rice transplanting following the RTD, rather than early or late transplanting, could be more effective to minimize CH₄ emission without significantly decreasing the rice productivity.     

有机肥绿肥配施对水稻土有机碳组分和水稻产量的影响

该研究以两年稻田定位试验为基础,设置有机肥(OF)、有机肥+绿肥2 000 kg·hm~(-2)(OF+GM1)、有机肥+绿肥3 000 kg·hm~(-2)(OF+GM2)和有机肥+绿肥4 000 kg·hm~(-2)(OF+GM3)4个处理,探讨不同处理对土壤有机碳组分和水稻产量的影响。结果表明,与OF处理相比,有机肥绿肥配施未提高土壤及团聚体有机碳含量,却显著提高水稻产量(OFOF+GM1OF+GM2和OF+GM3);把0.25～2 mm团聚体直接分成3个组分后发现,有机碳含量随各组分粒径增大而提高,与OF处理相比,绿肥还田能显著提高0.05～0.25和0.05 mm两个组分有机碳含量,通过密度分组实验对比,发现这两个组分有机碳变化主要由游离轻组有机碳引起;相关分析表明,水稻产量与0.25～2 mm团聚体和0.05～0.25 mm组分有机碳含量显著正相关,由于0.25～2 mm团聚体有机碳在处理间无显著差异,绿肥还田可能主要通过0.05～0.25 mm组分有机碳含量变化间接影响水稻产量。综上所述,水稻生产中,提倡有机肥配施绿肥以提高水稻产量和进行土壤培肥,配施绿肥量可根据田间绿肥实际产草量选择3 000～4 000 kg·hm~(-2)较为适宜。     

Evaluation of slag application to decrease methane emission from paddy soil and fate of iron

Abstract

Organic carbon in paddy soil is oxidized to carbon dioxide by reducing electron acceptors for a certain period after submerging. Methane production commences after the reduction of iron oxide which is the most important electron acceptor in the soil. We aimed to study the long-term suppression of the methane emission from the paddy soil by single application of iron slag. A revolving furnace slag (RFS; 248 g Fe kg^?1) was applied to the potted soil at the rate of 0 (control) or 20 ton ha^?1 in 2000. Rice plants were successively cultivated on the potted soils for 3 years without further application of the RFS. Methane emissions from the potted soils with rice plants were measured by the closed chamber method during these cultivation periods. Total flux of CH₄ emission from the pot applied with ,FS decreased by 5–30% compared with the control. The RFS supplied free iron oxide to the potted soil, and its iron acted as the oxidizing agent as evidenced by the increase in ferrous iron content in the soil. The amount of iron lost from leaching at the bottom of the pots was estimated as 54–59 kg Fe ha^?1 year^?1 at the percolation rate of 20 mm d^?1. Accordingly, half-life of the iron in the applied RFS was calculated as 42–46 years. Therefore, there is a possibility that the suppressing effect of RFS on CH₄ emission is sustained for a half-century, Contents of heavy metals (Cd, Cu, and Zn) in the brown rice harvested from the pot applied with RFS were not significantly different with those from the control pot.     

长期不同施肥对红壤性水稻土产量及基础地力的影响

利用长期定位施肥试验并结合盆栽试验,研究长期不同施肥模式对双季稻产量和土壤基础地力的影响,并分析水稻产量和肥料贡献率对土壤不同基础地力的响应。结果表明:长期施用氮磷钾肥(NPK)或氮磷钾肥配施稻草(NPKS)有利于双季稻产量的增加。NPK处理的早稻产量、晚稻产量和年总产量分别较对照(CK)处理增产100.7%、67.0%和81.9%,NPKS处理分别增产113.8%、77.7%和93.7%。CK处理早稻基础地力产量随试验年限的增加呈极显著下降趋势(p0.01),晚稻基础地力产量在试验的前9年随年限增加呈极显著下降(p0.01),之后基本维持稳定。长期施用氮磷钾肥或氮磷钾肥配施稻草有利于土壤基础地力的提升。土壤基础地力产量和基础地力贡献率均表现为NPKSNPKCK。NPK和NPKS处理早稻基础地力产量分别较CK提高38.5%和68.1%,晚稻分别提高25.8%和49.0%。NPK和NPKS处理早稻基础地力贡献率分别较CK提高21.4%和54.9%,晚稻分别提高12.8%和22.8%。无论施肥或不施肥,早晚稻产量均随土壤基础地力产量提高而增加;肥料对早晚稻产量贡献率随基础地力产量提高而极显著降低。土壤有机质、全氮、速效钾是影响土壤基础地力的主要养分因子,土壤全磷、全钾、碱解氮、有效磷对土壤基础地力也产生重要影响。     

尿素施用对稻田土壤甲烷产生、氧化及排放的影响

通过田间和培养试验研究了不施尿素(N0kg/hm2)和施用尿素(N300kg/hm2)对水稻生长期稻田土壤CH4产生潜力、氧化潜力和排放通量的影响。结果表明,水稻全生育期内,施用尿素降低土壤CH4产生潜力,并推迟其达到最大值的时间;尿素作为基肥和穗肥施用抑制土壤CH4氧化,而作为分蘖肥施用短暂地促进然后抑制土壤CH4氧化;施用尿素降低稻田CH4排放量。施用尿素通过同时影响CH4产生潜力和氧化潜力来影响稻田CH4排放。     

天津地区不同冬绿肥培肥土壤的效果

  【目的】  研究天津地区长期冬绿肥–春玉米轮作体系对土壤性质的影响,探讨该模式对土壤综合肥力的贡献。  【方法】  田间定位试验于2012—2019年在天津进行,供试作物为春玉米,冬绿肥处理包括冬绿肥二月兰(Orychophragmus violaceus L.)、毛叶苕子(Vicia villosa Roth L.)、黑麦(Secale cereale L.)、黑麦草(Lolium L.)、毛叶苕子二月兰混播、毛叶苕子黑麦混播及冬闲对照,共7个处理。测定土壤理化性质及酶活性,并通过主成分分析方法分析种植不同冬绿肥及其组合对土壤综合肥力的贡献。  【结果】  冬绿肥–春玉米轮作均显著增加了土壤有机质、全氮、全磷、有效磷、速效钾、微生物量碳、微生物量氮含量,同时增加了土壤饱和持水量,降低了土壤EC值。与冬闲–春玉米处理相比,冬绿肥–春玉米轮作土壤细菌数量、真菌数量、放线菌数量分别提高26.67%～75.89%、61.9%～97.9%和51.4%～92.1%,土壤脲酶活性显著增加6.59%～20.47%。毛叶苕子黑麦混播、毛叶苕子、黑麦处理显著提高土壤磷酸酶活性,黑麦、黑麦草处理显著提高土壤蔗糖酶活性,毛叶苕子二月兰混播、毛叶苕子处理显著提高土壤过氧化氢酶活性,毛叶苕子、黑麦草、二月兰和黑麦处理显著提高土壤多酚氧化酶活性。主成分分析结果表明冬绿肥种植显著提高土壤综合肥力,特别是冬绿肥混播种植,提升效果从高到低排序为毛叶苕子二月兰混播>毛叶苕子黑麦混播>毛叶苕子>二月兰>黑麦草>黑麦。  【结论】  华北春玉米种植区,长期冬绿肥种植显著改善了土壤理化性质和生物学性质,提高了土壤综合肥力水平,冬绿肥混播处理对土壤综合肥力贡献高于冬绿肥单播处理。     

Effects of animal manure application and crop plants upon size and activity of soil microbial biomass under organically grown spring barley

Temporal behaviour of microbial biomass C, N and respiration was measured under barley crops in two experiments on successive years in a recently converted organic production system in Scotland. Soils were fertilised with farmyard manure or poultry manure. Control soils received no manure at the start of the growing season. The effects of plants was also investigated by maintaining fallow subplots. C-flush values approximately doubled over the growing season in both years of the trial, showing a decline to pre-sowing values between the two seasons. This occurred in all soils, whether manured or not, or planted or fallow. Manure tended to increase the C-flush in the 2nd year only. N-flush in the 2nd year showed no increase in planted control plots but did increase in fallow soils. Manures significantly increased the N-flush. Respiration rates were stimulated by the presence of plants. Respiration rates were measured from soils taken from the field at post-sowing, mid-season and post-harvest occasions and incubated under constant conditions for up to 1 year. Here there was evidence that the effects of sampling and adjusting the moisture status could be as great upon microbial activity as the addition of the manures. C-flush also showed a consistent and persistent increase in these incubated soils. This suggests that the fundamental C-supplying characteristics of these soils was such that the biomass was moving towards a new equilibrium value fuelled by the relatively recent introduction of the organic farming regime. Received: 27 February 1996     

绿肥压青对粉垄稻田土壤微生物量碳和有机碳累积矿化量的影响

绿肥压青还田是调控现代集约化稻田土壤逆境的重要手段,为评估绿肥压青下粉垄耕作对稻田土壤微生物量碳和土壤有机碳累积矿化量的影响,设置早稻粉垄耕作与常规耕作2种耕作模式,不施肥和同等肥力条件下施化肥、单倍绿肥配施化肥和双倍绿肥配施化肥4种施肥处理,晚稻免耕常规施用化肥,开展双季稻周年大田应用试验。结果表明:单倍绿肥压青下,粉垄耕作能提高稻田土壤微生物量碳含量,可达常规耕作的2倍,能有效增加微生物对土壤碳素的利用率。增加绿肥压青量会提高粉垄耕作稻田土壤有机碳累积矿化量和矿化潜力,与施用化肥相比,单倍绿肥压青下早晚稻分别增加1.6%～32.8%和0.6%～16.6%,双倍绿肥压青下分别增加58.6%～70.9%和29.6%～38.4%。粉垄单倍绿肥压青会降低免耕晚稻齐穗期、收获期土壤呼吸强度,较常规耕作分别降低33.4%和38.7%,较粉垄耕作其他处理降低8.5%～31.4%。单倍绿肥压青下粉垄稻田土壤代谢商较常规耕作累积降低65.5%,与常耕相比,粉垄双倍绿肥压青和粉垄单一化肥的土壤代谢商分别累积增加20.3%和159.2%,粉垄双倍绿肥压青可有效缓解土壤代谢商的提升。微生物量碳含量与有机碳矿化激发效应呈负相关,绿肥压青还田下相关系数达0.44;累积矿化量和代谢商呈极显著正相关,粉垄耕作下相关系数达0.59。可见,绿肥粉垄耦合的模式可作为一种增加稻田土壤微生物量碳含量、减少部分生育时期土壤呼吸强度,增强土壤碳库稳定性及碳固持的重要调控技术措施。     

Suppressing methane emission and global warming potential from rice fields through intermittent drainage and green biomass amendment

Winter cover crops are recommended to improve soil quality and carbon sequestration, although their use as green manure can significantly increase methane (CH₄) emission from paddy soils. Soil management practices can be used to reduce CH₄ emission from paddy soils, but intermittent drainage is regarded as a key practice to reduce CH₄ emission and global warming potential (GWP). However, significantly greater emissions of carbon dioxide (CO₂) and nitrous oxide (N₂O) are expected when large amounts of cover crop biomass are incorporated into soils. In this study, we investigated the effects of midseason drainage on CH₄ emission and GWP following incorporation of 0, 3, 6 and 12 Mg/ha of cover crop biomass. Methane, CO₂ and N₂O emission rates significantly (P < 0.05) increased with higher rates of cover crop biomass incorporation under both irrigation conditions. However, intermittent drainage effectively reduced seasonal CH₄ fluxes by ca. 42–46% and GWP by 17–31% compared to continuous flooding. Moreover, there were no significant differences in rice yield between the two water management practices with similar biomass incorporation rates. In conclusion, intermittent drainage and incorporation of 3 Mg/ha of green biomass could be a good management option to reduce GWP.