Fate of benzoxazinone allelochemicals in soil after incorporation of wheat and rye sprouts

Growing cereals (especially rye), which are incorporated into the soil to increase soil fertility or organic matter content, is a common practice in crop rotation. The additional sanitizing effect of this incorporation has often been appreciated and is said to be due to leaching of benzoxazinones and subsequent formation of benzoxazolinones. In this study wheat (Stakado) and rye (Hacada) sprouts were incorporated into soil in amounts that simulated agricultural practice. By extraction and subsequent LC-MS analysis the disappearance and appearance of benzoxazinones, benzoxazolinones, and phenoxazinones in soil were followed. In the wheat experiments 6-methoxybenzoxazolin-2-one (MBOA) was detected as the main compound. 2-Hydroxy-7-methoxy-1,4-benzoxazin-3-one (HMBOA) and 2-hydroxy-1,4-benzoxazin-3-one (HBOA) were detected as well. No phenoxazinones were detected. For the rye experiment the picture was more complex. In the first 2 days of incubation MBOA and 2,4-dihydroxy-1,4-benzoxazin-3-one (DIBOA) were detected as the main allelochemicals along with HBOA, HMBOA, and benzoxazolin-2-one (BOA), in decreasing order. Later in the incubation period some 2-amino-3H-phenoxazin-3-one (APO) was detected and the amount of HBOA increased considerably and decreased again. The profiling of the benzoxazinone metabolites and their derivates in soil was dynamic and time-dependent. The highest concentrations of most of the compounds were seen at day 1 after incorporation. A maximum concentration was reached at day 4 for a few of the compounds. This study is the first of its kind that shows the dynamic pattern of biologically active benzoxazinone derivates in soil after incorporation of wheat and rye sprouts. Methods for organic synthesis of HBOA and HMBOA were developed as part of the study.     

Iodine desorption from rice paddy soil

Laboratory experiments on the desorption phenomena of iodine from rice paddy soil under waterlogged conditions, with a special reference to soil redox potential (Eh) and pH, have been conducted. Radioiodine tracer (1251), added to the soil, was readily sorbed on it. At the beginning of the waterlogging, the iodine desorption was low. However, iodine was desorbed into soil solution with time. The iodine desorption was enhanced markedly by the addition of organic substances such as straw pieces and glucose to the soil. Cultivation of rice plants in soil also affected the iodine desorption, suggesting root exudates and/or root autolysis might be participating in the desorption process. Eh dropped considerably after soil was waterlogged due to microbial metabolisms. Particularly low Eh values were observed in soils with plants and also with added organic substances. A negative correlation was seen between the desorption and soil Eh. High desorption was frequently observed when the Eh dropped to about -100 mV or below. Due to the reducing conditions (low Eh) by waterlogging, iodine in soil was leached into the soil solution; consequently total iodine concentration in paddy soil was considerably lower than forest and upland field soils. These iodine desorption phenomena under anaerobic conditions should be considered in assessing transfer of the long-lived radioiodine (129I) in the environment, especially in rice fields and marshland.     

稻米和土壤微量元素的空间变异

Consumption of rice is the main source of micronutrients to human in Asia. A paddy field with unknown anthropogenic contamination in Deqing County, Zhejiang Province, China was selected to characterize the spatial variability and distribution of micronutrients in rice grain and soil. A total of 96 paired soil and rice grain samples were collected at harvest. The micronutrients in the soil samples were extracted by diethylenetriamine pentaacetic acid (DTPA). The mean micronutrient concentrations in rice grain were 3.85 μg Cu g-1, 11.6 μg Fe g-1, 39.7 μg Mn g-1, and 26.0 μg Zn g-1. The mean concentrations were 2.54 μg g-1 for DTPA-Cu, 133.5 μg g-1 for DTPA-Fe, 30.6 μg g-1 for DTPA-Mn, and 0.84 μg g-1 for DTPA-Zn. Semivariograms showed that measured micronutrients in rice grain were moderately dependent, with a range distance of about 110 m. The concentrations of the DTPA-extractable micronutrients all displayed strong spatial dependency, with a range distance of about 60 m. There was some resemblance of spatial structure between soil pH and the grain Cu, Fe, Mn, and Zn. By analogy, similar spatial variation was observed between soil organic matter (SOM) and DTPA-extractable micronutrients in the soil. Kriging estimated maps of the attributes showed the spatial distributions of the variables in the field, which is beneficial for better understanding the spatial variation of micronutrients and for potentially refining agricultural management practices at a field scale.     

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。     

Effect of long-term fertilization on bacterial composition in rice paddy soil

We investigated the effect of long-term fertilization on bacterial abundance, composition, and diversity in paddy soil. The experiment started in 1990 in Taoyuan Agro-ecosystem Research Station in China (111°33′ E, 28°55′ N). The molecular approaches including real-time quantitative PCR, terminal restriction fragment length polymorphism, and clone library construction were employed using 16S rRNA gene as genetic marker. Application of inorganic fertilizers did not affect bacterial abundance, and rice straw incorporation combined with inorganic fertilizers significantly (P < 0.05) increased bacterial abundance with shifts in bacterial community composition. Among phylogenetic groups, γ-Proteobacteria was responsive to all fertilization regimes while Acidobacteria was relatively stable to fertilization practices. Inorganic fertilizer mainly affected γ-Proteobacteria and δ-Proteobacteria, while rice straw incorporation influenced β-Proteobacteria and Verrucomicrobia. Therefore, long-term fertilization can affect abundance and composition of bacterial communities in paddy soil.     

控释氮肥在淹水稻田土壤上的去向及利用率

通过土壤渗漏装置、微区和田间小区试验,研究了15N标记控释氮肥在淹水稻田土壤上氮素的去向和利用率。结果表明,施用控释氮肥能明显地降低氨挥发、淋失和硝化—反硝化的损失。控释氮肥处理的氨挥发量比尿素降低54.0%,氮淋失量降低32.5%。尿素的硝化—反硝化损失量占施入氮量的34.5%,而控释氮肥的只占2.0%;控释肥料与尿素氮在0—80cm土层中的残留率相近。控释氮肥一次性全量作基肥施入土壤,水稻的氮肥利用率平均为65.6%,比尿素(基肥+追肥)高出32.2个百分点。控释氮肥的农学效率显著地高于尿素。     

生物质炭提高稻田甲烷氧化活性

为了揭示生物质炭输入对稻田根际土壤产甲烷和甲烷氧化活性的影响,该文通过1a 的田间试验,研究了2种原料制备的生物质炭（竹炭和水稻秸秆炭）对水稻根际土壤产甲烷和甲烷氧化活性的影响。结果表明,2种生物质炭因理化性质的不同,对水稻根际土壤产甲烷活性和甲烷氧化活性的影响存在较大差别。秸秆炭的输入可以显著提高水稻苗期根际土壤产甲烷活性,而竹炭在水稻的整个生长期对根际土壤产甲烷活性均没有显著性影响。竹炭和秸秆炭不稳定易降解组分含量的差异,使其对稻田土壤产甲烷微生物产生不同程度的影响,进而导致稻田根际土壤产甲烷活性响应差别。除抽穗期竹炭处理和成熟期秸秆炭处理,尿素施加并未显著改变生物质炭对根际土壤产甲烷活性的影响趋势。在水稻整个生长期,秸秆炭和竹炭对稻田土壤甲烷氧化活性都有促进作用,但只有秸秆炭在苗期和成熟期表现出显著性的差异。尿素对苗期和抽穗期根际土壤甲烷氧化活性有促进作用。与竹炭相比,秸秆炭输入在改善土壤通气条件、提高土壤pH值和电导率EC、以及K、P元素含量等方面更为有效,同时可能是秸秆炭对水稻根际土壤甲烷氧化活性产生显著性促进作用的潜在机理。     

灌溉模式对红壤稻田土壤环境及水稻产量的影响

为优化红壤丘陵区水稻生产的水分管理模式,以中国科学院桃源农业生态试验站长期田间定位试验为研究对象,模拟分析了江南红壤丘陵区4种不同灌溉模式对稻田的土壤环境及系统生产力的影响。结果表明,土壤环境方面,雨养稻田与模拟节水灌溉相比,水稻生育期白天平均土壤温度高0.3～0.5℃;长期淹灌红壤稻田土壤体积质量相对较低,土壤蓄水能力较强,有利于土壤有机质的累积和氮素质量分数的提高,淹灌表层（0～20 cm）土壤全氮质量分数较雨养和湿灌分别高10.8%和8.8%,土壤有机质质量分数分别高7.0%和6.1%。由于江南丘陵区降雨资源丰富,早稻期间雨量充沛,处理间早稻产量差异主要来自不同灌溉模式下土壤环境尤其是土壤养分条件的改变;晚稻期间,水分则成为水稻产量提高的限制因子,雨养区晚稻产量显著低于其他灌溉处理。相对于其他水分管理模式,红壤双季稻田淹水灌溉模式能够获得更高的水稻产量。     

改良剂对反酸田土壤性质与水稻产量的影响

采用盆栽试验研究了不同改良剂在反酸田土壤上的应用效果。结果表明,土壤pH在3.47~4.90范围内,pH与交换性H+和交换性Al3+呈极显著线性负相关关系,而与土壤有效铁和有效硫含量呈显著正相关。不同改良处理在提高作物产量和改良土壤性质方面较对照处理与NPK处理效果明显,且钙镁磷肥、自研改良剂、石灰及碱渣等无机改良剂改良效果显著高于添加腐植酸、精制有机肥、碱性有机肥处理。其改良效果主要体现在提高土壤pH,显著降低土壤交换性H+和交换性Al3+含量,明显增加土壤有效钙和有效镁的含量,改善根系生长环境,增加水稻地上部养分吸收和水稻籽粒产量。综上,初步认为酸害(包括活性酸和潜在酸)是反酸田土壤最主要的限制因子,钙镁磷肥、自研改良剂和石灰等偏碱性且富含有效钙或磷的无机矿物质是农业生产中改良反酸田的适宜改良剂。     

长期施钾对红壤水稻土水稻产量及土壤钾素状况的影响

研究了长期定位施肥试验中连续27年（1981～2007）施用钾肥对水稻产量和土壤钾素状况的影响。本试验选择了其中5个处理:CK（不施肥）、NP（施氮、磷肥）、NPK（施氮、磷、钾肥）、NP+RS（施氮、磷肥和稻草）和NPK+RS（施氮、磷、钾肥和稻草）。结果表明,施钾能明显提高水稻产量,施钾肥的NPK和NPK+RS处理27年的早稻平均产量分别比NP和NP+RS处理增加15.2%和10.9%;晚稻增产17.2%和9.1%;在27年54季水稻种植期间,不同施肥处理早、晚稻产量的变化趋势不同。CK、NP处理的早、晚稻产量随时间的推移呈负变化趋势,而NPK、NP+RS和NPK+RS处理的早、晚稻产量呈正变化趋势。施钾的NPK和NPK+RS处理不同土层中土壤全钾、缓效钾和速效钾含量均高于NP和NP+RS处理的相同土层;除NPK+RS处理外,其它各处理表观钾平衡均为负值,其中CK和NP处理钾的负平衡值最大。长期施用钾肥能提高水稻产量和维持土壤钾素肥力。     

长期不同施肥对红壤性水稻土磷素及水稻磷营养的影响

【目的】合理的土壤磷素管理对作物生产和环境保护具有重要意义。南方双季稻田土壤磷素特征及磷素吸收信息相对缺乏,本文利用江西省稻田土壤质量演变定位监测试验为平台,系统分析长期不同施肥措施下土壤全磷、磷活化系数及水稻磷素吸收量的变化特征和全磷与磷盈亏的响应关系等,为指导磷肥合理施用提供重要科学依据。【方法】从1984年开始在江西省南昌市进行长期定位试验,设置8个处理,分别为不施肥对照(CK),PK、NP、NK、NPK、70%化肥氮+30%有机肥氮(70F+30M)、50%化肥氮+50%有机肥氮(50F+50M)、30%化肥氮+70%有机肥氮(30F+70M)。早稻施用纯N、P2O5和K2O量分别为150、60和150 kg/hm^2,晚稻分别为180、60和150 kg/hm^2。早、晚稻施用的氮、磷、钾化肥均分别为尿素、过磷酸钙和氯化钾,有机肥分别为紫云英(N、P2O5、K2O含量分别为0.30%、0.08%、0.23%)和腐熟猪粪(N、P2O5、K2O含量分别为0.45%、0.19%、0.60%)。除30F+70M处理,其余处理均为等氮磷钾设计。于1984-2012年每年早、晚稻收获期采集秸秆和稻谷计产,并于晚稻收获后,测定土壤全磷和有效磷含量。分析土壤全磷、磷活化系数(PAC)及早、晚稻磷素吸收量随种植年限的变化规律,研究土壤全磷含量与磷累积盈亏的响应关系。【结果】经29年连续试验,NK处理土壤全磷含量以每年4.6 mg/kg的速度下降,而含磷化肥处理土壤全磷含量升高速率为3.3~19.4 mg/(kg·a)。有机无机配施处理(70F+30M、50F+50M和30F+70M)升高速率平均为16.1 mg/(kg·a),是施NPK肥处理的4.89倍。施磷土壤全磷含量平均增至1.07 g/kg (2010-2012平均值),较初始值提高了1.18倍。不施磷肥处理土壤磷活化系数(PCA)由试验初始的4.24%下降至2.5%左右,施磷肥处理则均显著升高,其中有机无机配施处理平均升高至8.51%,平均年升高速率是施NPK处理的2.89倍。早、晚稻磷素吸收量,施磷肥(PK、NP和NPK)和化肥配施有机肥处理(70F+30M、50F+50M和30F+70M)均显著高于CK,提高幅度分别为29.9%~124%和28.6%~103%,均衡施肥(NPK、70F+30M、50F+50M和30F+70M)磷素吸收量显著高于不均衡施肥(PK和NP)处理,前者平均分别较后两者提高了38.7%和32.9%。早、晚稻产量与磷素吸收量呈极显著线性正相关关系,每吸收磷(P) 1 kg,早稻和晚稻产量分别可提高115和106 kg/hm^2。不施肥(CK)条件下,土壤全磷变化与累积磷盈亏间无显著相关关系,施NK肥处理土壤中每亏缺磷100 kg/hm^2,土壤全磷含量降低6.0 mg/kg,施化学磷肥的3个处理,土壤中每盈余磷100 kg/hm^2,平均提高9.3 mg/kg,而3个有机–无机配施处理,土壤中每盈余磷100 kg/hm^2,平均增加63.3 mg/kg,是无机磷肥的6.78倍。【结论】无论是单施化学磷肥,还是有机无机配施均有效提高土壤全磷含量及磷活化系数,且在等磷量投入条件下,有机无机配施较单施化肥的效果更优。建议减少中国南部红壤性稻田土壤的总磷输入量和提高有机肥施用比例,以改善粮食生产和保护环境。     

Effect of soil microorganisms on the growth of roots in rice seedlings

Abstract

Root system of rice seedlings grown on nutrient solution inoculated with soil microorganisms were examined morphologically in comparison with those obtained under sterile condition. In the presence of soil microorganisms, primary roots increased in their number and decreased in the total length. Inoculated plants had more secondary roots equipped with tertiary roots. In addition, longer root hairs developed densely on primary and secondary roots of the inoculated seedlings.

Anatomical examination of the primary roots revealed that the number and width of cortical layers, as well as the length and width of the cortical cells, were increased by the effect of microorganisms. Microbial effect on outer morphology of rice roots, consequently, was estimated to have been induced from the alteration in histological and cytological activities including the activation of the periclinal divisions of the epidermal cells, the inactivation of the transverse divisions of the cortical cells and the activation of the elongation of cortical cells.     

化感物质对土壤硝化作用的影响

试验研究了3种化感物质－苯甲酸、对羟基苯甲酸和阿魏酸在3种浓度（0.5mmoL、2.5mmoL和5.0mmol）、不同pH、不同土壤含水量等环境因子作用下对土壤硝化作用的影响,在第1d、4d、7d、10d、14d取样与对照比较,测定其对土壤中NH4^ -N转化为NO3^--N过程中的影响。结果表明,阿魏酸和苯甲酸对硝化作用的抑制率略高于对羟基苯甲酸,且阿魏酸随浓度升高而抑制作用加强。研究所采用的2种不同pH的土壤未表现出明显的差异;不同土壤含水量对转化为NO3^--N的总量影响较大,不加水的土壤样品NO3^--N的转化量很少,且随时间的推移其总量无多大为变化,而饱和含水量的样品NO3^--N的转化量随时间的推迟其总量一直上升,说明水分对土壤中NO3^--N的转化起着非常重要的作用。     

氮肥对绿洲稻田土壤硝态氮动态的影响及其生物学效应

我国氮肥的利用率一般只有30%左右,氮素损失约占30%～50%[1].其中,土壤硝态氮的淋洗是重要的损失途径,一直受到广泛关注[2-4].硝态氮在土壤中很少被土壤颗粒所吸持,主要以溶质的形式存在于土壤溶液中,从而成为评价地下水水质好坏的重要指标之一.     

土壤改良剂对冷浸田土壤特性和水稻群体质量的影响

以南方典型冷浸田为研究对象, 在明沟排水的基础上, 通过田间定位试验, 以不施土壤改良剂为对照, 研究了施用不同土壤改良剂(自研的脱硫灰改良剂、生物活性炭, 市售的土壤改良剂石灰、硅钙肥、腐植酸)对冷浸田氧化还原电位、土壤呼吸强度、土壤微生物数量、水稻群体构建及产量构成因素的影响。结果表明, 施用改良剂能够改善土壤理化性状, 提升土壤速效养分和pH,但除脱硫灰处理外, 其他改良剂处理对土壤Eh未产生显著影响。施用不同土壤改良剂在水稻各生育期均能有效增强土壤微生物呼吸强度和放线菌数量, 并且放线菌数量达到差异性显著水平(P<0.05), 生物活性炭处理下土壤呼吸强度和放线菌数量分别较对照增加67.6%和127.6%。各土壤改良剂处理与CK相比较均有助于提高叶片SPAD、茎蘖数、水稻干物质积累量、成穗数、穗粒数、产量结实率和根系伤流速率。其中以脱硫灰和生物活性炭处理改良效果最佳, 抽穗后29 d时,根系伤流速率较CK分别提高45.4%和39.1%, 叶片SPAD分别增加27.4%和22.5%; 成熟期水稻成穗数较对照提高12.1%和10.7%,干物质积累量增加68.8%和50.5%,产量分别增加12.8%和10.3%。综上所述, 土壤改良剂可有效改善冷浸田土壤特性及水稻群体质量, 脱硫灰和生物活性炭处理的改良效果最明显, 增产幅度最大。     

Fate of nitrogen derived from 15N-labeled plant residues and composts in rice-planted paddy soil

Pot experiments that lasted for 3 y were conducted to investigate the dynamics of nitrogen derived from plant residues (rice root, hull, straw, corn root, and rapeseed pod-wall), and composts (rice straw compost, cattle manure compost, and cattle manure sawdust compost), which were labeled with ¹⁵N. The rates of nitrogen uptake by rice (=N efficiency), denitrification, and immobilization derived from the organic materials incorporated before the first year of cultivation were investigated throughout 3 y of cultivation. At the end of the first year of cultivation, relatively high rates of N efficiency were obtained for rapeseed pod-wall (24.6%), rice straw (19.1%), and rice hull (18.6%), while corn root and cattle manure sawdust compost displayed a noticeably high denitrification rate. Corn root, cattle manure sawdust compost, rice hull, and rapeseed pod-wall exhibited remarkably high N mineralization rates ranging from 60 to 75% of the organic materials N applied. Cumulative rates of N efficiencies from the organic materials applied before the first year of cultivation fitted well to a first-order kinetic model and their asymptotes were compared among the organic materials. The asymptotic rates of N efficiency tended to depend on the rates at the end of the first year of cultivation.     

水稻化感物质作用特性的研究

在对水稻化感作用生理生化特性研究的基础上，进行了水稻叶片浸提液的GC-MS分析和相关酶的活性测定。结果表明，水稻叶片中苯丙氨酸裂解酶（PAL）和肉桂酸-4-羟化酶（CA4H）活性的大小与酚的含量密切相关，同时水稻化感作用强度与其肉桂酸含量呈正相关关系。而与其水杨酸含量呈负相关关系，因此水稻化感作用是由许多化感物质共同作用的结果。