Effect of Continuous Application of Controlled Release Nitrogen Fertilizer in Various Types of Soil in Dong-Ting Lake Region under Double Rice Cropping System

[Objective] This study aimed to explore the effects of continuous application of controlled release nitrogen fertilizer under double rice cropping system. [Method] By modeling three types of paddy soils in Dong-Ting Lake area, four treatments as no fertilizer （CK）, urea, controlled release nitrogen fertilizer （CRNF） and 70% controlled release nitrogen fertilizer （70% CRNF） were designed in the micro-plot trials from 2005 to 2008. [Result] The rice yield in treatment CRNF at N 150 kg/hm2 was increased by 10.3%, 8.0% and 2.4% compared with treatment of urea, in alluvial sandy loamy paddy soil （ALS）, purple calcareous clayey paddy soil （PCS）, and reddish yellow loamy paddy soil （RYS）, respectively; and the yield in treatment of 70% CRNF was increased by 6.1%, 2.6% and -0.8%, respectively. The ranking order of nitrogen uptake amount by plant in early rice and late rice was CRNF 70% CRNF urea CK in all three types of soil. Nitrogen utilization efficiency of CRNF in above three types of soil was 60.7%, 59.6% and 56.3%, increased by 23.8%, 19.4% and 16.3% compared with that in treatment of urea, respectively. Nitrogen utilization efficiency of CRNF in early rice was increased year by year, and was higher than that of 70% CRNF during the whole experiment stage, while that in late rice was increased first and then decreased from the 3rd year. [Conclusion] Continuous application CRNF could alleviate the decreasing of soil nitrogen fertility and organic carbon especially in ALS, increase rice yield and nitrogen utilization efficiency in double-rice cropping system.

Effects of Autumn Continuous Overcast and Rainfall on Harvesting Period of Semilate Rice and Countermeasures

Autumn continuous overcast and rainfall weather affects normal rice harvest and often causes higher rice output which is not accompanied by a higher income,and it is one of main agrometeorological disasters in harvesting period of middle and late rice in Hubei Province. Especially in recent years,plantation area of single-season rice in Hubei Province is larger,and it is mostly harvested from last dekad of September to middle dekad of October,and the opportunity of encountering autumn continuous overcast and rainfall in harvesting period is larger. From later period of last dekad of September to first and middle dekads of October,2017,continuous overcast and rainfall weather occurred in most areas of east Hubei Province,which caused serious influence on the harvesting of semilate rice. In this paper,adverse influence on semilate rice harvest by the autumn continuous overcast and rainfall was investigated and analyzed,and the suggestions on defending and reducing the harm of continuous overcast and rainfall in the harvesting period of semilate rice were proposed.

Study on the Effect of "Crayfish-Rice Continuous Cropping" on Grain Production:A Case Study of Hubei Province

Taking Hubei Province as an example,starting with the present situation and existing problems of grain production,this paper expounds the great significance of"crayfish-rice continuous cropping"model in improving grain quality,and analyzes the beneficial influence of"crayfish-rice continuous cropping"on grain production and the difficulties it faces.This paper also puts forward some measures and suggestions for the further popularization of"crayfish-rice continuous cropping"in order to maintain food security.

江西双季早稻播种育秧期低温连阴雨灾害分析

基于江西省82个国家气象站点1961—2023年的逐日气象资料,研究了江西省双季早稻播种育秧期低温连阴雨气象灾害风险,结果表明:1961—2023年江西省早稻播种育秧期平均气温以0.379℃/10 a的速度升高,日照时数呈先减后增趋势;不同等级低温连阴雨灾害发生天数均呈先增后减趋势,高频区发生在1980s、1990s,2000年以后则发生较少;2001—2023年的整体发生频率比1961—2000年的低,但高频区向赣西北转移,赣东北和赣中有所减弱;综合风险等级显示,高风险区主要分布在抚州市、吉安市、萍乡市、宜春市、南昌市和九江市,中风险区主要包括赣南北部和赣东北地区,低风险区以赣南南部地区为主。

水稻—马铃薯轮作对盆栽土壤细菌群落结构的影响

【目的】研究耕作系统对土壤微生物群落的调节能力,为合理布局耕作系统奠定基础。【方法】以马铃薯连作为对照种植系统,在4种条件下(土壤灭菌加施肥、土壤灭菌不施肥、土壤不灭菌加施肥、土壤不灭菌不施肥)设计盆栽试验。通过PCR技术扩增并测序水稻—马铃薯轮作(以下简称“稻薯轮作”)和马铃薯连作系统中每个种植季节作物根区土壤样本的细菌16S rRNA基因的V3~V4区域,并比较细菌群落的物种组成、多样性、功能组成和生态网络。【结果】稻薯轮作可显著影响土壤细菌群落结构。在未灭菌条件下,轮作施肥和未施肥土壤的细菌群落丰富度指数分别显著提高15.62%和9.05%,香农多样性指数分别显著提高2.45%和1.71%;而连作土壤细菌群落的物种多样性和丰富度无显著变化。在土壤灭菌后,稻薯轮作土壤细菌群落物种的丰富度指数和香农多样性指数可提高到灭菌前水平;而连作土壤细菌群落物种的香农多样性指数显著降低,丰富度仅在施肥时恢复到土壤灭菌前水平。稻薯轮作和马铃薯连作土壤细菌群落功能组成差异分析表明:稻薯轮作可显著提高13类土壤功能菌群的丰度;而连作仅能提高4类土壤功能菌群的丰度,其中包括几丁质分解菌和植物病原菌。与连作相比,轮作土壤细菌群落生态网络的介数中心性、边数、图密度、节点数、平均度、图径、模块性和平均路径长度分别提高了10.00倍、2.50倍、2.40倍、1.10倍、0.64倍、0.63倍、0.55倍和0.40倍;而细菌病原菌属群体生态网络的介数中心性、图密度、边数、平均度、节点数和度中心性分别降低了71.4%、67.7%、50.9%、36.1%、23.2%和11.1%。此外,冬季马铃薯种植土壤的病原菌属群体物种的生态网络拓扑特征参数也较夏季耕作土壤显著降低。【结论】稻薯轮作可显著提高土壤细菌群落的物种和功能多样性及调控土壤细菌群落物种的相互作用,对土壤细菌群落具有显著的调节作用。

连作晚稻品种生长特性及产量比较

针对连作晚稻季节紧、产量低的问题,比较6个高产杂交稻品种的生长特性和产量。结果表明,甬优59、华中优9326、嘉丰优2号和甬优31每667 m^(2)产量分别较对照品种甬优1540提高12.0%、14.0%、15.4%和16.4%。嘉丰优2号和华中优9326产量较对照品种增产的主要原因是每穗粒数和千粒重提高,甬优31和甬优59产量较甬优1540增产的主要原因是每穗粒数提高。供试品种的生育期较对照品种延长1~6 d。生产上可根据早晚稻品种的生育期进行搭配,选用生长期适宜的杂交稻品种作连作晚稻机插种植。

黔东南州水稻连阴雨保险纯费率厘定

水稻生育中后期至收获阶段的连阴雨是影响其生长和晾晒的限制环境,研究连阴雨保险纯费率,对于降低农业气象灾害风险具有重要意义。本研究利用黔东南州16个县(市)1980-2020年水稻单产数据及气象资料,构建水稻连阴雨减产模型,基于拟合优度检验法,从6种分布模型中筛选各县(市)最优模型估算连阴雨灾害概率,结合连阴雨概率及减产率厘定保险纯费率。结果表明:黔东南州水稻连阴雨综合指数与减产率呈显著的线性关系,线性表达式为Yr=6.66CRI+4.12,连阴雨综合指数越大,水稻减产率越高。连阴雨发生概率随灾害程度加重而降低,各县(市)有30%~50%的概率发生轻度连阴雨,中度和重度连阴雨概率则分别为10%~30%、0~3%;海拔较高的麻江、黄平发生中度、重度连阴雨的概率较其余地区偏高。16个县(市)水稻连阴雨保险纯费率分别在7.38%~10.47%,西北部麻江、黄平两个县保险纯费率较高,达9.5%以上。

1991-2020年重庆水稻生育期连阴雨气候特征及成因

为掌握重庆水稻生育期连阴雨的发生规律与成因,科学指导水稻生产防灾减灾,基于1991—2020年重庆市气象资料、水稻生育期观测资料及再分析资料,研究重庆水稻不同种植区及不同生育期的连阴雨气候特征和大气环流特征。结果表明,重庆各种植区全生育期的连阴雨均呈减少趋势,其中,中部减少趋势最明显,连阴雨发生站次比气候倾向率为-0.33·(10 a)^(-1);东南部连阴雨发生站次比最高,达1.18,但减少趋势最弱;东北部连阴雨发生站次比最低,仅0.55,且预计阴雨灾害将进一步减少。水稻营养生长期的连阴雨发生频次最高,生殖生长期最低。空间分布上,水稻全生育期连阴雨发生频次东南部最高,单点最大值达1.80;东北部最低,单点最小值仅0.27;高值区分布在重庆偏南区域,不同生育期略有差异;而低值区始终位于东北部。连阴雨发生最为频繁的营养生长期,各地区均受负位势高度异常控制,南北位势高度梯度减小,冷空气南下易导致连阴雨发生。连阴雨发生频次最高的重庆东南部,水汽起源于太平洋,由副热带高压外围的东南暖湿气流提供。营养生长期的水汽输送带相比苗期更偏南,呈西南向分布。

华中优1号作连晚栽培的特性及高产栽培技术

婺城区一直以来有种植双季稻的传统,随着水稻生产方式的变化,种粮大户对连作晚稻新品种的需求较多。华中优1号是婺城区引进的籼粳杂交稻新品种,作为连作晚稻进行机插种植,开展不同机插密度试验,表现为株高适中、秆壮穗大、稻米品质优、生育期适中、产量较高。文章介绍华中优1号的特征特性和绿色高产栽培技术,以供种粮大户进行大面积生产参考。

Soil Organic N Forms and N Supply as Affected by Fertilization Under Intensive Rice Cropping System

Changes of soil organic nitrogen forms and soil nitrogen supply under continuous rice cropping system were investigated in a long-term fertilization experiment in Jinhua, Zhejiang Province, China. The fertilizer treatments included combination of P-K, N-K, N-P, and N-P-K as well as the control. After six years of continuous double-rice cropping, total soil N and hydrolysable N contents remained stable in plots with N treatments, while the hydrolysable N contents were substantially reduced in those plots without N application. Compared to the unbalanced fertilization treatments, P and K increased the percentage of hydrolysable ammonium N in the total soil N with the balanced application of N, and also maintained higher rice grain yields and nitrogen uptake. Grain yield was positively correlated with total N uptake (r = 0.875**), hydrolysable N (r = 0.608**), hydrolysable ammonium N (r = 0.560**) and the hydrolysable unknown N (r = 0.417**). Total N uptake was positively correlated with hydrolysable N (r = 0.608**), hydrolysable ammonium N (r = 0.440**) and hydrolysable unknown N (r = 0.431**). Soil nutrient depletion and/or unbalanced fertilization to rice crop reduced N content in soil microbial biomass, and therefore increased C/N ratio, suggesting a negative effect on the total microbial biomass in the soil.

四川省水稻移栽——分蘖期低温连阴雨时空分布

为对四川水稻不同生育期低温连阴雨灾害防护提供科学依据,将四川根据地形及气候特点分为6个子区域,基于1961—2020年91个气象台站资料,运用线性倾向估计法,结合低温连阴雨灾害指标,计算灾害发生频率、灾害指数、气候倾向率等分析低温连阴雨灾害时空分布特征。结果表明:(1)四川省水稻移栽—分蘖期轻、中、重度低温灾害发生频率分别为0.38%~27.5%、0%~57.6%和0%~75.3%。虽然轻度冷害发生频率小,但覆盖面积最广,中度次之,主要在川西南山地区,重度冷害高发站为广安、隆昌。(2)轻、中、重度连阴雨灾害发生频率为8.8%~25.5%、1.4%~18.0%、0%~11.2%,轻、中、重度连阴雨灾害发生频率呈递减趋势,中、重度灾害在川西南山地区北部发生频率最高。(3)低温连阴雨灾害发生频率0%~26.1%。低温连阴雨灾害主要在川西南山地区北部、盆南丘陵区、盆周边缘山地区出现。(4)1961—2020年有23个站低温连阴雨灾害发生天数年际变化显著。在川西南山地南部、盆周边缘山地区、盆中浅丘区每10年灾害天数有所减少,其余地区则灾害天数增加。川西南山地区北部和盆南丘陵区为低温连阴雨高发区;四川省水稻移栽—分蘖期低温连阴雨灾害除盆南丘陵区及盆东平行岭谷区外部分站点外,四川大部分地区近年来低温连阴雨灾害减少。

互联网使用和风险偏好对农户生态种养技术持续采纳意愿的影响——以稻虾共作技术为例

本文基于2021年7月在江汉平原的调研数据,以稻虾共作技术为例,构建双变量Probit模型,实证分析了互联网使用和风险偏好对农户稻虾共作技术的采纳行为和持续采纳意愿的影响。结果表明:是否使用互联网以及使用频率均显著正向影响农户的采纳行为和持续采纳意愿;且风险偏好型农户更愿意采纳和持续采纳稻虾共作技术;同时,互联网使用在风险偏好对持续采纳意愿的影响中具有显著的负向调节作用,即互联网使用削弱了风险偏好对农户采纳决策的正向影响。进一步异质性分析发现,互联网使用和风险偏好对农业收入占比较高的农户的采纳决策影响更大;互联网使用对青壮年农户和老年农户的影响差异较小,风险偏好对青壮年农户的采纳行为和持续采纳意愿影响显著,对老年农户的持续采纳意愿显著。因此,应该充分发挥好互联网使用在农户获取信息中的重要作用,采取一定的措施降低农户承担的风险。

不同土壤强化处理对连作太子参生长发育的影响及其效果评价

药用植物连作障碍问题威胁着集约化中药农业的源头产品供给与质量安全,因此,探索强化修复连作易病土壤的生态修复具有重要的生态经济意义。以块根入药的太子参在集约化种植过程中表现出严重的连作障碍。本研究在两茬太子参之间设置留种、休耕、淹水和稻参轮作4种处理方式,动态检测不同处理后太子参的光合和抗逆生理以及物质转运差异,并从土壤生态环境的角度评价不同处理对缓解太子参连作障碍的作用以及探索其机制。研究结果显示,相较于休耕处理,稻参轮作处理后的土壤pH降低趋势减缓,有机质含量显著增加,太子参根际有益微生物和根际土壤中氮循环基因的丰度均显著增加,而病原微生物却显著减少;太子参叶片光合速率显著提升,干物质运转过程改善;太子参产量、多糖和总皂苷含量分别显著提升19.5%、22.9%和5.8%。改进的灰色T型关联分析表明,土壤pH、有机质含量、特异微生物、氮循环基因丰度以及太子参叶片光合速率和抗氧化酶系统均与产量高度关联(关联度绝对值大于0.6),且太子参块根膨大中期及之前的生育状态和土壤环境的改善对产量形成起到更重要的作用。因此,苗期、膨大前期及中期是消减太子参连作障碍的关键时期。本研究结果还表明,稻参轮作处理下,前作水稻分泌物和残体降解物进入土壤生态系统,加速特异微生物区系重构,缓解土壤酸化以及改善营养封存,降低太子参逆境胁迫强度,从而在生长发育前期就改善了连作太子参的能量和营养代谢,并优化了物质转运,最终改善其产量和品质。该结果为药用植物连作障碍的生态修复,构建生态可持续栽培关键技术体系提供理论依据。

连作晚稻不同播期下钵苗摆栽及毯苗机插效果对比

为提高水稻生产效率及连作晚稻单产,开展连作晚稻不同播栽期下钵苗摆栽及毯苗机插对比试验。结果表明,同期播种下钵苗秧苗素质要好于毯苗;相同播栽期下,与毯苗机插相比,钵苗摆栽的播齐历期缩短,齐穗期提前,但全生育期基本一致,钵苗摆栽的产量明显高于毯苗机插,平均增产150 kg/667 m^(2)左右;同一育插秧方式下,随着播栽期的推迟,结实率降低,产量先增加后降低,均以B2处理(7月2日播种、7月30移栽)的产量最高,且钵苗摆栽要比毯苗机插耐迟播迟栽。结合温岭当地的生产实际,连作晚稻要高产,应在立秋前完成移栽。

Methane emissions from rice fields under continuous straw return in the middle-lower reaches of the Yangtze River

A three-year experiment was conducted in the middle-lower reaches of the Yangtze River in China to study the influence of continuous wheat straw return during the rice season and continuous rice straw return in wheat on methane （CH 4 ） emissions from rice fields in which, the rice-wheat rotation system is the most dominant planting pattern. The field experiment was initiated in October 2009 and has continued since the wheat-growing season of that year. The analyses for the present study were conducted in the second （2011） and third （2012） rice growing seasons. Four treatments, namely, the continuous return of wheat straw and rice straw in every season （WR）, of rice straw but no wheat straw return （R）, of wheat straw but no rice straw return （W） and a control with no straw return （CK）, were laid out in a randomized split-plot design. The total seasonal CH 4 emissions ranged from 107.4 to 491.7 kg/ha （2011） and 160.3 to 909.6 kg/ha （2012）. The increase in CH 4 emissions for treatments WR and W were 289% and 230% in the second year and 185% and 225% in the third year, respectively, in relation to CK. We observed less methane emissions in the treatment R than in CK by 14%-43%, but not statistically significant. Treatment R could increase rice productivity while no more CH 4 emission occurs. The difference in the total CH 4 emissions mainly related to a difference in the methane flux rate during the first 30-35 days after transplant in the rice growing season, which was caused by the amount of dissolved oxygen in paddy water and the amount of reducible soil materials.

基于不同叶位日光诱导叶绿素荧光信息的水稻叶瘟病早期监测

[目的/意义]基于遥感手段的稻叶瘟(Rice Leaf Blast,RLB)无损早期监测对于抗性育种和植保防控具有重要作用。目前对稻瘟病的研究多使用反射光谱在其显症阶段进行监测,针对稻叶瘟早期侵染阶段的日光诱导叶绿素荧光(Solar-Induced Chlorophyll Fluorescence,SIF)光谱监测研究尚未见报道。本研究的目的是基于不同叶位的日光诱导叶绿素荧光信息,实现水稻叶瘟病早期阶段感病叶片的准确识别。[方法]基于一年的温室接种试验和大田采样实验,配合使用主动光源、ASD(Analytical Spectral Devices)地物光谱仪和FluoWat叶片夹,获取了拔节期和抽穗期水稻植株顶1至顶4叶位的叶片SIF光谱,并人工标注了被测样本的发病等级。研究基于连续小波分析(Continue Wavelet Analysis,CWA)提取对稻叶瘟敏感的小波特征,比较了不同叶位敏感特征及其感病叶片识别精度,最后基于线性判别分析(Linear Discriminant Analysis,LDA)算法构建了稻叶瘟识别模型。[结果和讨论]各叶位感病叶片远红光区域的上行和下行SIF均显著高于健康叶片;基于SIF小波特征的感病叶片识别精度显著高于原始SIF波段,顶1叶的稻瘟病识别精度显著高于其他三个叶位,其识别精度最高可达70%;提取的适用于多叶位的共性敏感小波特征↑WF832,3和↓WF809,3在顶1至顶4叶的精度分别达到69.45%、62.19%、60.35%、63.00%和69.98%、62.78%、60.51%、61.30%。[结论]本研究揭示了稻瘟病胁迫下水稻叶片SIF光谱响应规律,提取了对稻叶瘟敏感的SIF小波特征,结果证明了连续小波分析和SIF技术用于诊断稻叶瘟的潜力,为实现稻瘟病的田间早期、快速、原位诊断提供了重要参考与技术支撑。

外源水稻秸秆对土壤细菌群落结构的影响

以连作大白菜土壤为试材,研究水稻秸秆添加对大白菜幼苗根肿病发生及土壤化学性质的影响,通过高通量测序技术研究土壤细菌群落结构的变化,以期为粮食作物秸秆在蔬菜生产中的应用提供参考依据。结果表明:水稻秸秆添加有效控制了大白菜幼苗根肿病的发生,降低了发病率、病情指数和发病根系占比;对土壤化学性质的研究表明,水稻秸秆添加一定程度提高了土壤pH、有机碳和碳氮比水平,并提高了碱解氮、有效磷和速效钾的含量;相关性分析发现,土壤pH、有机碳、碳氮比、碱解氮、有效磷和速效钾显著影响土壤细菌群落分布,方差分解分析结果表明土壤有机碳对土壤细菌群落结构影响较大。

基于理化参数和图谱特征的稻曲病病害高光谱识别

基于水稻冠层高光谱数据和样点植株理化数据,首先利用连续小波分析、灰度共生矩阵等方法提取高光谱图像的图谱特征,并对主要理化指标和病害程度做相关性分析,然后通过Relief F算法对多特征进行优选,最后建立不同核的支持向量机分类模型。结果表明:理化特征参与下的分类精度较高,通过Relief F算法筛选得到的最优特征中四项理化特征均在内,最后精度达到0.95。研究证实了理化参数对稻曲病识别的重要作用,可以为大田水稻病害监测提供新思路。

甬优1540在金华地区作机插连作晚稻高产栽培技术

为了做好晚稻新品种的高产配套栽培工作,充分发挥品种的高产潜力,文中对甬优1540作机插连作晚稻的高产示范表现情况及高产栽培技术进行了相关研究,总结了其高产栽培技术,以期为双季稻区规模种粮农户实现高产高效栽培提供参考。

连续增氧对不同基因型水稻分蘖期生长和氮代谢酶活性的影响

为明确氧对不同基因型水稻生长和氮素代谢的作用机理,以籼稻、粳稻和旱稻品种为材料,采用营养液培养,考察根际连续增氧水稻分蘖期生长和氮代谢状况。结果表明,连续增氧后,各水稻品种叶绿素含量均有所下降,国稻1号(籼稻)地上部分和根系干物质重分别降低44%和40%,巴西陆稻(旱稻)和秀水09(粳稻)降低不显著。国稻1号和巴西陆稻的氮积累量分别降低35.8%和36.0%。各基因型水稻叶片NRA(硝酸还原酶活性)显著提高,GSA(谷酰胺合成酶活性)下降。秀水09,叶片NRA增加较少(P>0.05)。连续增氧提高了水稻根比表面积和氧化强度;但降低了叶片叶绿素含量和GSA,不利于水稻氮素吸收和干物质积累。不同基因型水稻对连续增氧的响应存在差异。为明确氧对不同基因型水稻生长和氮素代谢的作用机理,以籼稻、粳稻和旱稻品种为材料,采用营养液培养,考察根际连续增氧水稻分蘖期生长和氮代谢状况。结果表明,连续增氧后,各水稻品种叶绿素含量均有所下降,国稻1号(籼稻)地上部分和根系干物质重分别降低44%和40%,巴西陆稻(旱稻)和秀水09(粳稻)降低不显著。国稻1号和巴西陆稻的氮积累量分别降低35.8%和36.0%。各基因型水稻叶片NRA(硝酸还原酶活性)显著提高,GSA(谷酰胺合成酶活性)下降。秀水09,叶片NRA增加较少(P>0.05)。连续增氧提高了水稻根比表面积和氧化强度;但降低了叶片叶绿素含量和GSA,不利于水稻氮素吸收和干物质积累。不同基因型水稻对连续增氧的响应存在差异。