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1.
适宜节水灌溉模式抑制寒地稻田N_2O排放增加水稻产量 总被引:1,自引:1,他引:1
2014年在大田试验条件下,设置控制灌溉、间歇灌溉、浅湿灌溉及淹灌4种水分管理模式,采用静态暗箱-气相色谱法田间观测寒地水稻生长季N2O排放特征,研究不同灌溉模式对寒地稻田N2O排放的影响及N2O排放对土壤环境要素的响应,同时测定水稻产量,以期为寒地稻田N2O排放特征研究提供对策。结果表明:不同灌溉模式下N2O排放的高峰均出现在水分交替频繁阶段,水稻生育阶段前期,各处理N2O排放都处于较低水平,泡田期几乎无N2O排放。与淹灌相比,间歇灌溉使N2O排放总量增加47.3%,控制灌溉和浅湿灌溉使N2O排放总量减少40.7%和39.6%。寒地稻田N2O排放通量与土壤硝态氮含量关系密切,与土壤10 cm温度显著相关(P0.05)。水稻生长期间各处理N2O排放顺序间歇灌溉淹灌,二者均显著高于浅湿灌溉和控制灌溉(P0.05)。各处理水稻产量以浅湿灌溉最低、其他方式差异不显著。可见,间歇灌溉有助于提高水稻产量,但会促进稻田N2O的排放。在综合考虑水稻产量及稻田温室效应的需求下,控制灌溉为最佳灌溉方式,应予以高度重视。该研究可为黑龙江寒地稻作区选择节水减排模式提供科学支撑。 相似文献
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水肥条件与稻草还田对土壤供氮及水稻产量的影响 总被引:7,自引:0,他引:7
通过2年田间裂区试验,研究了不同灌溉和施肥条件下,稻草还田对土壤供氮特征及产量的影响。结果表明:(1)上年晚稻稻草还田提高了来年早稻期间土壤NH4^+-N浓度;配施氮肥后,新鲜早稻稻草还田也增加了晚稻期间土壤NH4+-N浓度,但在不施氮肥情况下,淹水灌溉稻草还田处理的土壤NH4^+-N浓度要低于移走稻草处理,间歇灌溉下稻草还田处理的土壤NH4^+-N浓度仍高于移走稻草处理。(2)稻草还田能促进水稻中后期植株对氮素的吸收及生物量的累积。(3)稻草还田能增加水稻产量,早稻增产幅度为6.85%,晚稻为8.17%;施用氮肥后稻草的增产效应要显著高于不施氮肥,早、晚稻增产分别为9.18%和5.83%。稻草还田主要通过影响有效穗数来影响产量。水稻生长季节、灌溉模式和施肥条件对稻草还田的增产效应存在交互作用,早稻的最佳处理组合为“连续淹灌+稻草还田+配施氮肥”,晚稻的最佳处理组合为“间歇灌溉+稻草还田+配施氮肥”。 相似文献
3.
不同灌溉模式下寒地稻田CH_4和N_2O排放及温室效应研究 总被引:3,自引:0,他引:3
为了研究寒地稻田CH4和N2O排放特征,选取黑龙江省寒地稻田为研究对象,采用静态箱—气相色谱法对控制灌溉、间歇灌溉、浅湿灌溉及淹灌四种水分管理模式等4个处理的CH4和N2O排放通量进行观测。结果表明,不同灌溉模式下的CH4和N2O排放高峰均出现在水稻生长旺季,而休闲期内排放较少。相对于淹灌,浅湿灌溉稻田CH4累积排放量降低了27.2%,控制灌溉处理的降低了34%,间歇灌溉处理的降低了48.2%。长期淹灌稻田N2O排放量比间歇灌溉稻田减少0.41kg/hm2,比控制灌溉稻田增加0.38kg/hm2,比浅湿灌溉稻田增加0.37kg/hm2。总体温室效应分析,节水灌溉模式能有效抑制温室气体的排放并显著地降低CH4和N2O的总温室效应。水稻生育期内,CH4排放量减少时期,N2O排放量有增加趋势,综合考虑CH4和N2O排放的消长关系,才能有效减缓稻田温室气体的排放。 相似文献
4.
丘陵区稻田N2O排放的特点 总被引:3,自引:1,他引:3
1993-1994年在中国科学院红壤生态试验站通过田间试验研究了丘陵区稻田N2O排放的特点。结果表明,稻田N2O排放主要集中在水分落干期间,淹水状态下几乎没有N2O排放。由于早稻稻草还田、晚稻稻田N2O排放量即使在水分离落干期间也不高。稻田N2O排放量随地形降低而逐渐增加,1993-1994年两年中坡底、坡腰和坡顶稻田水稻生长期平均N2O-N排放通量分别为10.90、5.60和2.11μg/(m^ 相似文献
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通过2年裂区试验,研究了不同灌溉方式和施肥条件下稻草还田对土壤供N特征及产量的影响。结果表明:上年晚稻草还田提高了翌年早稻期间土壤NH4 -N浓度;配施N肥后新鲜早稻草还田也增加了晚稻期间土壤NH4 -N浓度,但不施N肥淹水灌溉下稻草还田土壤NH4 -N浓度低于移走稻草的处理,间歇灌溉下稻草还田处理土壤NH4 -N浓度仍高于移走稻草的处理。稻草还田能增加水稻产量,早稻增产幅度为6.85%,晚稻为8.17%;施用N肥后稻草增产效应显著高于不施N肥处理,分别增产9.18%和5.83%。稻草还田主要通过影响有效穗数来影响产量,但水稻生长季节、灌溉模式和施肥条件对稻草还田的增产效应存在交互作用,早稻以连续淹水灌溉条件下稻草还田的增产效果最大,而晚稻则以间歇灌溉条件下的效果最佳。 相似文献
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稻田冬种绿肥对水稻产量和土壤肥力的影响 总被引:15,自引:1,他引:14
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。 相似文献
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长期秸秆还田背景下,集成几种养分高效利用施肥模式,研究其对红壤水稻产量、吸氮量和土壤地力的影响,为红壤区养分持续高效利用和水稻增产提供依据。2013~2016年在江西省宜春市高安县渡埠农场布置田间定位试验,集成有机替代无机,添加微量元素Si、Zn、S,缓释肥替代化肥,减氮20%等养分高效利用施肥模式。研究不同施肥模式对产量与肥料利用率的影响。结果表明,与常规只施尿素相比,8季有机替代,添加微量元素Si、Zn、S,缓释肥替代,都没有显著增加产量;有机肥处理地上部吸氮量相对更高(P<0.05);减氮20%降低产量,但没有达到显著水平,地上部吸氮量下降显著(P<0.05)。不同年份早、晚稻产量波动较大;早稻与晚稻相比,产量有高有低。早、晚稻的农学效率分别为20.6~24.8 kg/kg及14.5~18.4 kg/kg;早、晚稻的氮肥表观利用率分别为31.6%~40.0%及26.0%~35.4%。缓释肥表观利用率最高,但与化肥相比没有达到显著差异(P=0.07)。4年结束后,不同施肥处理耕层(0~20 cm)土壤有效磷和速效钾含量差异显著(P<0.05),土壤有机质、全氮、pH及微生物量碳氮都没有显著差异。长期秸秆还田红壤稻田,通过8季20%有机替代,添加Si、Zn、S微量元素及缓释肥施用等增产增效模式都没有显著增加双季稻产量、土壤有机质和全氮,说明长期秸秆还田对产量和地力影响很大,在此基础上增加有机肥具有增产趋势,但需更长时间达到显著水平;同时,秸秆加有机肥可以满足水稻对微量元素的需求。 相似文献
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我县几年来大量推广水稻磷肥沾秧根的经验证明,这是一项经济有效的增产措施。但是磷肥沾秧根的肥效随土壤类型和水稻品种而有显著的差异。就土壤而言,红壤性稻田磷肥沾秧根增产显著,冲积性稻田则不显著。就品种类型来说,单季晚稻沾秧根肥效高,早稻和双季晚稻则较低。 相似文献
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基于红壤稻田肥力与相对产量关系的水稻生产力评估 总被引:9,自引:4,他引:5
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灌溉排水耦合调控稻田水分转化关系 总被引:2,自引:1,他引:2
该文利用装配有地下水位自动控制系统的蒸渗仪,分析节水灌溉与旱地控制排水技术耦合调控对于稻田水分转化关系的影响。结果表明,灌排耦合调控在小幅减少水稻产量的同时,显著减少了稻田灌溉水量、地下排水量及水稻蒸发蒸腾量,最终显著增加了水稻水分生产效率。与常规灌排稻田相比,灌排耦合调控稻田水稻产量减少1.9%,灌溉水量、地下排水量及水稻蒸发蒸腾量分别显著减少41.7%、49.9%及24.9%,水分生产效率增加30.5%。随着控灌稻田排水控制限的提高,稻田灌溉水量、地下排水量及水稻蒸发蒸腾量减少,水稻产量保持稳定,使得水稻水分生产效率进一步增加。提高控灌稻田的排水控制限,减缓了稻田土壤水分的衰退速度,并增加稻田地下水位低于排水控制限的比例,稻田灌溉次数与发生地下排水的时段均减少,使得控灌稻田灌溉水量与地下排水量下降,两者综合作用下控灌稻田水稻蒸发蒸腾量减少。在采用控制灌溉模式的基础上,适当提高稻田排水控制限,可以较好地实现水稻生产中水分的高效利用,研究结果可为优化稻田水管理模式提供依据。 相似文献
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Protecting soil structure against compaction—proposed solutions to safeguard agricultural soils To safeguard the ecological soil functions and the functions linked to human activities, measures against harmful changes to the soil are required, in line with the precautionary principle. The German Federal Soil Protection Act sets obligations for precaution in agricultural land use and, if harmful changes to the soil are foreseeable, measures for averting a danger. The results of a research project of the Federal Environmental Agency show that it is possible to describe an impairment of the soil structure, using methods of soil analysis. But this as a sole information would not qualify for the identification of harmful changes to the soil in the context of the Soil Protection Act, which requires an assessment of the severity of disruption of soil functions and the respective subject of protection. This would make additional soil investigations on site mandatory. Approaches in agricultural engineering and soil physics have introduced procedures to preserve the soil structure, in accordance with the precautionary principle. But these procedures have different goals and different ranges of application and hence offer partial solutions to safeguard against soil compaction. The assessment model of “trafficability by measuring the rut depth” provides information about the compaction status of the soil under applied conditions for farming gear, without providing detailed information about affected soil layers. The soil‐physical model of classifying soils into “risk classes for harmful soil compaction” focuses on the relationship between topsoil compaction and crop yields. The soil‐physical models “precompression stress” and “loading ratio” provide information for the assessment of subsoil compaction and a prognosis of a possible impairment of the soil structure at the water content of field capacity. It is necessary to validate the individual models with additional regional data about soil structure before a final assessment of the prognoses is made. 相似文献
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Soil Erodibility and Physicochemical Properties of Collapsing Gully Alluvial Fans in Southern China 总被引:1,自引:0,他引:1
In southern China, collapsing gully erosion produces massive deposits of sediment on the plough layer of alluvial fan farmland, leading to reduced nutrients, increased erodibility, and even desertification. The aim of this study was to investigate soil erodibility (the factor K in the universal Soil Loss Equation, USLE) and physicochemical properties of the alluvial fans of the most severe collapsing gully erosion areas (Hubei, Jiangxi, Fujian, and Guangdong provinces) in southern China. The soils of the collapsing gully alluvial fans had a higher bulk density, but a lower total porosity, saturated water content, and silt and clay fractions than the control (CK) soils from the farmland without desertification. Soil quality gradually decreased from fan edge to fanhead. Significant decreases were found in soil pH, organic matter, cation exchange capacity, and total potassium, nitrogen, and phosphorus, as well as available nitrogen, phosphorus, and potassium, resulting in a gradual decrease in soil nutrients from the fanedge to the fanhead. Soil erodibility was greatest in the fanhead, and soil erodibility K values of the alluvial fans were 53.71%, 66.28%, 67.53%, and 71.68 % greater than that in those of the CK soils of Hubei, Jiangxi, Fujian, and Guangdong, respectively, indicating a significant correlation between the soil erodibility K values and physicochemical properties, particularly sand fraction and organic matter content. The results provide new insights into the relationship between soil physicochemical properties and erodibility of alluvial fans, and suggest that improving soil structure might increase soil fertility in the collapsing gully alluvial fan farmland. 相似文献
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The concept of soil health has been extensively reviewed in the scientific literature, but there is only patchy and inconsistent information available to farmers and growers who are concerned about the declining condition of their soils and are looking for appropriate test methods and management interventions to help reverse it. Although there are well‐established laboratory methods for soil chemical analysis, and a range of laboratory and field methods for measuring soil physical properties, only now are methods starting to emerge for soil biological analysis. This study provides an overview of the methods that are currently available commercially (or are close to commercialization) for farmers and growers in the UK. We examine the science underpinning the methods, the value of the information provided and how farmers and advisors can use results from such assessments for informed decision‐making in relation to soil management. 相似文献
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土壤孔隙结构与土壤微环境和有机碳周转关系的研究进展 总被引:7,自引:1,他引:6
土壤结构是土壤功能的基础,不仅影响土壤养分的供应、水分的保持及渗透、气体的交换等过程,还为土壤微生物提供了物理生境,并调控土壤有机碳的周转这一关键过程。土壤的孔隙特征能够直接、真实地反映土壤结构的好坏;用土壤的孔隙特征作为试验指标能更好地反映土壤结构对这些过程的调节作用。在此基础上,将高度异质性的土壤孔隙结构同土壤微环境的变化和土壤有机碳的周转过程进行定量分析,对深入了解土壤结构在土壤生态系统中的功能至关重要。因此,着重从土壤孔隙结构对土壤微环境的影响及其与有机碳的关系两方面展开,剖析土壤孔隙结构调控作用下的土壤微环境响应过程,阐述土壤孔隙结构对土壤有机碳周转产生的直接、间接影响,强调土壤孔隙结构在调节土壤有机碳周转进程中的重要作用,并对土壤孔隙结构在调节土壤有机碳周转、植物残体分解及其与微生物协调作用机制等方面研究提出展望。 相似文献
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Depth distribution of soil wettability and its correlations with vegetation type, soil texture, and pH were investigated under various land use (cropland, grassland, and forestland) and soil management systems. Wettability was evaluated by contact angle with the Wilhelmy plate method. Water repellency was likely to be present under permanently vegetated land, but less common on tilled agricultural land. It was mostly prevalent in the topsoil, especially in coarse-textured soils, and decreased in the subsoil. However, the depth dependency of wettability could not be derived from the investigated wide range of soils. The correlation and multiple regression analysis revealed that the wettability in repellent soils was affected more by soil organic carbon (SOC) than by soil texture and pH, whereas in wettable soils, soil texture and pH were more effective than SOC. Furthermore, the quality of SOC seemed to be more important in determining wettability than its quantity, as proofed by stronger hydrophobicity under coniferous than under deciduous forestland. Soil management had a minor effect on wettability if conventional and conservation tillage or different grazing intensities were considered. 相似文献
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设施栽培下原状土与扰动土水分特性的试验研究 总被引:1,自引:0,他引:1
以四川省双流县设施栽培土壤为研究对象,对其原状土与扰动土的土壤水分特征曲线、水分物理性质和比水容量等项目进行了研究。结果表明,扰动土水分特征曲线总体变化趋势与原状土较为一致。在低吸力阶段,相同吸力条件下扰动土含水量高于原状土,在高吸力阶段两者差异较小。扰动土毛管孔隙度、总孔度和凋萎含水量在剖面上的总体变化趋势与原状土较为一致。扰动土不同土层田间持水量和有效水含量差异较小,原状土的田间持水量和有效水含量均随土层加深而减少。在低吸力阶段,相同吸力条件下扰动土比水容量远高于原状土,但随土壤水吸力增加,扰动土比水容量变化趋势逐渐与原状土一致。 相似文献
19.
植物苗期根系抗侵蚀特性试验研究——以构树和顶坛花椒为例 总被引:1,自引:0,他引:1
植物的固土抗蚀作用大小与其根系密切相关,而根系特征决定了根的固土抗蚀作用的发挥,本文以相同基质下构树和顶坛花椒不同特征的根系为研究对象.通过研究根系特征与土壤抗冲性、抗蚀性、抗拉性、紧实度的关系,结果表明,苗期根系能强化土壤抗冲性,构树苗、顶坛花椒苗根系强化值大小分别为78.01>77.71;根系可提高土壤抗蚀性,其抗蚀性强弱为.构树苗>顶坛花椒苗>对照,构树、顶坛花椒、对照试验的土壤水稳性指数分别为4.36,3.16,1.67;不同树种根系对土壤的固结能力不同,构树苗生长下的土壤抗拉能力为214.92 N,明显大于顶坛花椒苗生长下的土壤154.87 N;土壤紧实度大小为构树苗>顶坛花椒苗.并采用加权综合指数法综合评价了苗期不同特征植物根系的固土能力强弱,得出构树苗综合指数为1.058.而顶坛花椒苗为0.902.即构树苗的固土能力强于顶坛花椒,以期为今后的水土保持工作提供一定的理论依据. 相似文献
20.
基于30年长期定位试验,通过测定黑土光谱反射率和不同腐殖质组分含量,探究了不同施肥对黑土土壤腐殖质含量、土壤颜色及二者之间的关系。试验设置5个处理:(1)休耕(Fallow);(2)不施肥处理(CK);(3)单施化肥(NPK);(4)有机肥部分替代化肥(NPKM);(5)秸秆部分替代化肥处理(NPKS)。结果表明:与NPK处理相比,Fallow、NPKS、NPKM分别显著提高49.7%,74.3%,27.0%的土壤有机碳含量(p<0.05)。NPKM处理中胡敏酸(HA)含量最高为3.9 g/kg,随后依次为CK、NPKS、NPK、Fallow。NPKM、NPKS和Fallow处理中土壤富里酸(FA)含量为2.2~2.3 g/kg,显著高于NPK和CK。NPKM处理中胡敏素(HM)含量为18.6 g/kg,显著高于其他处理(p<0.05)。不同处理间土壤光谱反射率由高到低依次为NPK>Fallow、CK>NPKS>NPKM,与CK处理相比,NPK土壤光谱反射率在平均提高6.5%,NPKS和NPKM则分别降低11.1%和15.1%。根据线性相关分析结果,黑土土壤光谱反射率与土壤HAHM均呈显著负相关关系(p<0.01),相关系数(r)分别为-0.858,-0.681。综合上述结果,长期有机物料投入可以显著提高黑土腐殖物质含量,降低黑土光谱反射率,使黑土颜色加深,而长期化肥施入则使黑土光谱反射率提高,出现"褪色"现象,有机粪肥在黑土中对土壤有机质和腐殖质含量的提升效果优于秸秆。 相似文献