Long-Term Fertilization Effects on Rice Productivity and Nutrient Efficiency in Korean Paddy

ABSTRACT

Long-term fertilization tests evaluated rice (Oryza sativa) productivity in relation to application of nitrogen (N)-phosphorus (P)-potassium (K) (120-34.9-66.7 kg ha^{? 1}, respectively) during 1967–1972 and N-P-K (150-43.7-83.3 kg ha^{? 1}, respectively) during 1973–2000. The comparison treatments (NP, PK, and NK) and the control (not fertilized) were selected for calculating nutrient efficiency. Rice grain yield increased at a 17.78 kg ha^{? 1} yr^{? 1} in the control, mainly due to development of improved cultivars. Phosphorus management was found to be important for indigenous fertility and rice productivity in this paddy soil. Yield increased significantly with P fertilization. Without N fertilization (PK), rice productivity increased 56.85 kg ha^{? 1} yr^{? 1} from 62% of NPK at the initial stage to 74% after passing 34 years, which might be affected by increasing biological N fixation with P accumulation in soil. In NK treatment, rice yield increased at a relatively low rate (37.82 kg hr^{? 1} yr^{? 1}) from the same rice productivity with that of NPK in 1967 to 91% after 34 years. In comparison, yield increased at a high rate (62.82 kg hr^{? 1} yr^{? 1}) without K fertilization (NP) from ca. 90% of NPK and might exceed the yield of NPK after 64 years of long-term fertilization. Therefore, K fertilization level might be readjusted after long-term fertilizing in paddy soil.     

Emission of dimethyl sulfide,carbonyl sulfide,and carbon bisulfide from paddy fields

Abstract

Emission rates of dimethyl sulficle (DMS), carbonyl sulfide (COS), and carbon disulfide (CS₂) to the atmosphere from paddy fields at Ryugasaki, Ibaraki Prefecture, Japan were measured by using the closed chamber method. DMS was emitted mainly through the rice plant and its emission rate was much higher than those of COS and CS₂. During a cropping period COS was slightly absorbed by the rice plant. Significant diurnal and seasonal variations of DMS iuxes were observed. The highest DMS iux was observed immediately after the heading day of rice plant. The annual DMS emission rate was in the order of mineral plot > straw plot > no-N plot, ranging from 4.5 to 6.9 mg S m^-2 yr^-1. The annual COS emission rate was in the order of straw plot > no-N plot > mineral plot, ranging from -0.2 to 1.8 mg S m^-2 yr^-1. The annual CS₂ emission rate was slightly higher in the straw plot, ranging from 0.9 to 2.0 mg S m^-2 yr^-1.     

移栽秧龄对机插杂交稻产量及群体质量的影响

为探明中、迟熟型杂交稻品种在不同机插秧龄条件下的适应性及品种间生长发育及产量的差异,研究了不同移栽秧龄对机插中、迟熟杂交稻产量及群体质量的影响。结果表明,21 d适龄移栽杂交稻的产量、各生育时期的群体茎蘖数、分蘖成穗率、叶面积指数、抽穗后剑叶光合、群体透光、抽穗期的有效叶面积、高效叶面积、有效叶面积率以及高效叶面积率显著大于迟栽处理。品种选择上,迟熟杂交稻品种无论在产量还是在各群体指标方面均优于中熟品种,尤其是迟熟型中F优498分蘖力中等,株型好,这些特征改善了机插条件下杂交稻群体光合生产和通风透光状况,穗型大且穗粒数较多,茎蘖成穗率较高,秧龄弹性较大,可适当延长秧龄到28 d也能保持较高产量。中熟型中辐优838虽然穗数多,但其穗粒数限制了产量的增加,且其分蘖力过强,导致无效分蘖过多,对机插产量的发挥造成一定影响。研究结果为生产中选择机插适栽秧龄及高产杂交稻品种提供参考。     

高速插秧机钵体毯状苗纵向送秧装置的设计与试验

基于现有高速插秧机平台,改进设计适用于钵体毯状苗的纵向送秧装置。对钵体毯状苗的插秧特点进行分析。针对钵体毯状苗对纵向送秧装置的要求,对纵向送秧装置进行了详细的理论分析和设计。通过Solidworks建模并对装置的工作状态进行虚拟仿真。设计加工样机进行试验分析,试验结果表明,多次纵向送秧误差均在2 mm以内,且不存在累积误差,故满足设计要求。保证了机器在高速工作状况下,纵向送秧的精度和非送秧过程时秧苗的纵向位置固定。该文设计的纵向送秧装置使得钵体毯状苗在插秧机平台上的纵向送秧:精准、稳定、可靠。为钵体毯状苗实现高速机械插秧提供了可靠的设计方案和理论依据。     

长期施肥对红壤性水稻土团聚体稳定性及固碳特征的影响

施用有机肥是提高土壤有机碳(SOC)含量、促进土壤团聚体形成和改善土壤结构的重要措施。本研究旨在探讨长期作物残留和投入有机物料对水稻土团聚体分布及稳定性的影响,分析不同粒级团聚体的固碳特征及其与团聚体形成的相关性,以及土壤和不同粒级团聚体对累积碳投入的响应。长期定位施肥试验始于1986年,设不施肥(CK)、单施化肥(CF)、秸秆化肥混施(RS)、低量粪肥配施化肥(M1)和高量粪肥配施化肥(M2)5个处理。2009年采集0~10 cm土壤样品,测定总土以及大团聚体(LM,2 mm)、较大团聚体(SM,0.25~2 mm)、微团聚体(MA,0.25~0.053 mm)和黏粉粒(SC,0.053 mm)的质量比例及其SOC浓度,并分析闭蓄于SM内部的颗粒有机物(POM)、微团聚体(MA-SM)和黏粉粒(SC-SM)的质量含量和SOC浓度。结果表明,与CK和CF比较,有机肥混施化肥处理(RS、M1和M2)均显著提高了LM和SM的质量比例和平均当量直径(MWD),降低了SC质量含量;两个粪肥配施化肥处理(M1和M2)的效果优于秸秆化肥混施(RS),但是M1和M2间差异不显著;单施化肥则降低了稳定性团聚体的比例。团聚体的SOC浓度没有随粒级增大而增加,各处理均为LM和SM结合的SOC浓度最高,其次为SC,最小为MA。与CK比较,有机肥混施化肥处理均显著提高了各粒级团聚体的SOC浓度。总土SOC的增加主要取决于SM的SOC含量,而MA-SM组分决定了SM固持SOC的能力。总土、LM和SM的SOC含量以及从SM分离出的POM、MA-SM和SC-SM的SOC含量均与累积碳投入量呈显著正相关,但总土分离出的MA和SC的SOC含量对累积碳投入量反应不敏感,表现出碳饱和迹象。因此,尽管长期大量施用有机物料促进了红壤性水稻土大团聚体的形成和团聚体稳定性,增加了其SOC的固持,但有机质可能不是该土壤水稳性团聚体形成的最主要黏结剂。     

Carbon and nitrogen stocks and their mineralization potentials are higher under organic than conventional farming practices in Japanese Andosols

ABSTRACT

This study aimed at understanding whether and how long-term organic rice farming affects soil carbon (C) and nitrogen (N) stocks and their mineralization potentials in submerged rice paddies in Tochigi, Japan. An incubation experiment was carried out to assess the impacts of internal nutrient cycling after organic farming (OF) for 4–5 years (4OF), 8–9 years (8OF), and 12 years (12OF), compared with a conventional rice field (CF). Soil samples were collected at 0–15 cm and 15–20 cm in flooded rice fields after harvest in October 2013. pH and bulk density at 0–15 cm were significantly lower in 12OF fields than in CF fields (by 0.22 unit pH and 17.5%, respectively). Compared with CF, 12OF fields showed significant differences in soil organic carbon (SOC) and total nitrogen (TN), but 4OF and 8OF fields did not. In 8OF fields, the C decomposition (Co) and N mineralization (No) potentials were significantly higher (by 34.0% and 35.6%, respectively, at 0–15 cm, and by 67.1% and 24.5% at 15–20 cm) than in CF fields. Similarly, in 8OF fields at 0–15 cm, the Co:SOC and No:TN ratios were 19.8% and 23.2% higher, respectively, than in CF fields. Co, No, Co:SOC, and No:TN in 12OF fields were higher than those in CF fields, demonstrating the effects of prolonged organic rice farming. Additionally, in 12OF fields, C and N stocks were significantly higher (by 15.5% and 17.2%, respectively, at 0–15 cm, and by 4.8% and 12.1% at 15–20 cm) than in CF fields. Our findings suggest that long-term organic rice farming increases soil C and N stocks as well as C and N mineralization in Japanese Andosols.     

土壤粒度和磁化率特征对绰墩古水稻土成因的指示

本文研究了绰墩农业遗址P-02原状土剖面的粒度分布,定量分析了土壤黏粒的矿物组成,测定了土壤/沉积物及其各粒级组分(黏粒、粉砂粒、细砂粒和粗砂粒)的磁化率。结果表明：在0 ~ 30 cm和134 ~ 154 cm两层段,黏粒含量从下向上有降低的趋势,这可能预示着长期的水耕作业造成黏粒从表层向亚表层移动;在148 ~ 200 cm层段,土壤磁化率从下向上有降低的趋势,可能说明该处存在长期淹水的状况。总之,黏粒含量和质量磁化率数据说明长江下游地区的先民在马家浜文化时期已开始采用“水溽”方式进行水稻的栽培。     

油菜机械移栽载苗基质块力学与生物学特性分析

为保证油菜载苗基质块具有良好的机械移栽适应性和幼苗生长质量,该文针对油菜机械移栽过程中载苗基质易出现破损导致取送苗失效问题,以正方体油菜载苗基质块为研究对象,对载苗基质块力学特性和生物学特性进行研究,开展以基质成分配比(蚯蚓粪:黄棕壤∶蛭石混合体积比为1∶2∶1、1∶1∶1和2∶1∶1)、基质压实度(基质与穴孔体积比为1.0、1.2和1.4)、硼硒营养液浓度(0.24%、0.27%和0.30%)为因素的正交试验。结果表明:基质成分配比和基质压实度对油菜载苗基质块力学特性影响分别为极显著和显著;基质成分配比及基质压实度对幼苗壮苗指数影响极显著,硼硒营养液浓度对其影响显著;基质成分配比和基质压实度均对基质包裹度及根系健壮度影响极显著,硼硒营养液浓度对基质包裹度及根系健壮度影响显著。采用综合评分法得出基质成分配比为1∶1∶1、基质压实度为1.2、硼硒营养液浓度为0.30%时油菜载苗基质块力学特性及幼苗生长质量较优。对上述因素组合所育油菜载苗基质块进行台架试验可知:在移栽机横向推苗速度20 mm/s,同步输送带速度30 mm/s,取苗频率40株/min试验条件下,基质损失率为2.57%、送取苗成功率为90.93%,满足机械移栽需求。     

挠力河流域水土资源平衡及耕地合理利用规模特征

水土资源平衡是耕地合理开发与利用的前提,为定量评估粮食主产区水土资源平衡关系,促进耕地可持续利用,该研究提出“以水定地”的耕地配置模式,并以三江平原腹地的挠力河流域为研究区,在多源水土信息数据支持下,依据农田土壤水分平衡原理构建水土资源平衡模型,以评估水土资源平衡态势,进而揭示该流域耕地合理利用规模特征。结果表明:1)2000年以来,挠力河流域水田持续扩张,旱地轻度萎缩,至2018年其水田化系数已达37.33%,垦殖率为62.61%。旱地和水田的水分胁迫蒸散能力处于同一水平,但水田的水分亏缺量显著高于旱地;2)当前,挠力河流域的灌溉供水量范围为21.23~211.91 mm,富锦市、友谊县和集贤县处于水资源超载状态,且水田均呈“土多水少”状态,饶河县、宝清县、七台河市和双鸭山市辖区则“土少水多”;3)依据“以水定地”耕地配置模式,该流域水田面积可增加11.02万hm2,对应的水田化系数控制在44.76%以下。富锦市、友谊县和集贤县应适度控制或减小水田利用规模,宝清县应成为未来“旱改水”的重点备选区。研究结果对挠力河流域乃至三江平原的耕地有序开发及保障农业可持续发展具有重要现实意义。     

田间条件下施用石灰石及调理剂降低土壤镉可提取性的效应

原位钝化是镉污染稻田土壤修复的主要方法之一,钝化剂的选择对修复效果十分关键。通过3个田间试验和示范区对比调查研究了施用石灰石及主要调理剂对稻田土壤镉的钝化效应,并提出有效的技术措施。结果表明,施用足量石灰石(≥3.75 t/hm~2,试验Ⅰ)、钙镁磷肥(3.75 t/hm~2,试验III)和生物质炭(9.00 t/hm~2,试验II;7.50 t/hm~2,试验III)、石灰(3.00 t/hm~2,试验III)碱性调理剂均能显著提高土壤pH,降低土壤Cd提取率(P0.05);施用硅藻土(8.25 t/hm~2)和羟基磷灰石(3.75 t/hm~2)也能降低土壤Cd提取率。其中施用石灰石11.25 t/hm~2能使Cd提取率降低21个百分点;施用硅藻土8.25 t/hm~2(试验Ⅱ)、生物质炭9.00 t/hm~2(试验Ⅱ)可以显著降低土壤Cd提取率(P0.05),分别降低10,19个百分点。试验Ⅲ中与对照相比,施用石灰3.00 t/hm~2、钙镁磷肥3.75 t/hm~2、生物质炭7.50 t/hm~2处理的土壤pH显著提高(P0.05),石灰、钙镁磷肥、生物质炭、羟基磷灰石3.75 t/hm~2处理的土壤Cd提取率显著降低(P0.05);同时发现,石灰处理土壤pH显著高于钙镁磷肥、生物质炭、羟基磷灰石3个处理,而土壤Cd提取率则显著小于后三者。对比调查的相关性分析结果表明,Cd提取率与土壤pH呈显著负相关,与土壤有效态Cd含量呈显著正相关(P0.05)。聚类分析得出,可将不同调理剂对土壤镉的钝化效应分为5类,钝化效应较大的为石灰6.00,9.00 t/hm~2和GSA-4 6.00,9.00 t/hm~2,可优先用于实际的钝化修复,而钝化效应不显著的有海泡石4.50 t/hm~2、沸石4.50 t/hm~2、腐殖质4.50 t/hm~2和羟基磷灰3.00 t/hm~2,则不予以推荐。