生物炭对双季水稻产量、养分吸收和土壤性状的残留效应

生物炭对改良酸性土壤质量和提高作物产量具有重要作用。本研究以常规稻中嘉早17(早稻)和杂交稻五优308(晚稻)为供试品种,于2015年开始设置不施生物炭(C0)和一次性施用生物炭20 t/hm^2(C20)处理,以阐明施用生物炭3年后对双季稻产量、养分吸收和土壤性状的残留效应。结果表明,与C0处理相比,C20处理显著提高双季早稻产量,但对晚稻产量无显著影响;C20处理显著提高早、晚稻钾素吸收,对早稻氮素和磷素吸收有增加的趋势,但未达显著水平。试验进行4年后,C20处理显著提高土壤有机质含量和pH值。因此,在本试验中的酸性红壤上一次性施用生物炭后的第4年,生物炭仍然对双季水稻产量和土壤肥力具有提升效应。     

【Short Report】Influence of the Improved System of Rice Intensification (SRI) on Rice Yield,Yield Components and Tillering Characteristics under Different Rice Establishment Methods

Abstract

The impacts of the system of rice intensification (SRI) and conventional management (CM) on grain yield, yield components and tillering capacity were examined under 4 rice establishment methods transplanting (TP), seedling casting (SC), mechanical transplanting (MT) and direct seeding (DS). SRI produced significantly higher grain yield than CM under TP and MT but not under DS or SC. DS and SC produced much higher seedling quality than TP or MT, suggesting that robust seedlings with vigorous roots weaken the positive effect of SRI on rice yield. SRI produced a higher tillering rate than CM, but did not affect ear-bearing tiller rate significantly. Moreover, the net photosynthetic rate of the recent fully expanded leaf at mid-tillering stage was significantly higher in SRI than in CM under MT and TP. The obtained results also indicated that SRI increased biomass accumulation before heading and improved utilization of photosynthates in the grain-filling stage.     

Agronomic performance of late-season rice under different tillage,straw, and nitrogen management

In double rice-cropping system in China, zero tillage in late-season rice with straw return from early season rice is an emerging technology for saving inputs, shortening the lag time between rice crops, avoiding straw burning, and conserving natural resources. The objective of this 2-year field study was to determine the effects of tillage and straw return on N uptake, grain yield, and N use efficiency of late-season rice. Treatments were arranged in a split-plot design with four combinations of tillage and straw return as main plots and three N management practices as subplots. Tillage was either conventional soil puddling or zero tillage with newly harvested crop residue from early season rice either removed or placed on the soil surface without incorporation. The N treatments were zero-N control, site-specific N management (SSNM), and farmers’ N-fertilizer practice (FFP). Straw return regardless of tillage or N management did not reduce rice yield. In the second year, straw return significantly increased grain yield in the zero-N control. Chlorophyll meter readings at heading and total N uptake at maturity were higher with straw return in the zero-N control, suggesting that straw provides nutrients to rice in the late growing period. Zero tillage did not reduce N uptake, grain yield, and N use efficiency compared with conventional tillage. Despite large differences in timing and rate of N application between FFP and SSNM, these two N treatments resulted in comparable N uptake and grain yield of late-season rice regardless of tillage and straw return. These results suggest that zero tillage after early rice with straw return could replace conventional tillage for late rice in the double rice-cropping system in China.     

湘南丘岗地区水稻轻简施肥技术的效应研究

通过田间小区试验,系统研究了在几种轻简施肥技术条件下双季早、晚稻的生育特性、养分吸收规律、肥料养分的当季利用率、经济性状和产量效应以及土壤速效养分的变化规律。结果表明：在轻简施肥技术条件下,双季稻前期早发不明显,中期成穗率高,后期根旺叶健不早衰;早、晚稻不同生育时期的干物质积累量与养分的吸收量具有相似性;早稻前期氮、磷、钾吸收量最低,绝大部分氮、磷、钾养分是在中、后期吸收的,晚稻前期的氮、磷、钾吸收量明显高于早稻,后期的氮、磷、钾吸收量大多低于早稻,不同处理之间差异不大。各轻简施肥处理均能提高早稻对氮和磷的表观利用率,以“湘珠专用肥”处理效果最好,但不能提高早稻对钾的表观利用率;晚稻轻简施肥处理“湘珠专用肥”也能明显提高水稻对肥料氮和钾的表观利用率。轻简施肥处理的水稻产量明显高于当地习惯施肥处理。     

氮、磷、锌营养对水稻籽粒植酸含量的影响及与几种矿质元素间的相关性

以协青早、秀水110及其辐射诱变获得的低植酸突变系（HIPi1和HIPj1）为材料,通过水培试验对不同氮、磷、锌浓度处理下水稻籽粒植酸含量差异及与几种矿质元素间的相关性进行了比较分析。高水平氮、磷、锌浓度处理的籽粒植酸含量较同一品种的低氮、磷、锌处理均有所降低,但在水稻生育期间,籽粒植酸含量对磷、锌处理浓度变化的敏感性,则因品种的植酸类型特征而异;氮、磷浓度增加能分别提高铁或降低铜在籽粒中的积累,但在高锌处理下,籽粒铁含量明显降低、而钾和镁的含量等却有所升高; 籽粒植酸含量一般与K、Mg、Fe、Cu 4种矿质元素含量呈正相关、与籽粒Zn含量呈负相关,但统计显著水平因品种而异。低植酸突变体籽粒中的K、Mg、Fe、Zn等含量虽略有下降,但可以通过适当的介质营养条件来调节有关矿质营养在水稻籽粒中的积累。     

Determining the effect of salt-induced soil on paddy rice development and yield using GIS mapping

The effect of salt-induced soil on growth and yield development of paddy rice in Akure, Nigeria was determined. This was to ascertain effect of various salt-inducing parameters on rice yield. Fifteen soil samples were collected and 13 parameters were analysed using standard procedures. The parameters include electrical conductivity (EC), pH, particle size, cation exchange capacity (CEC), exchangeable acidity (EA), organic matter (OM), organic carbon (OC), phosphorus, sodium, calcium (Ca), potassium (K), and magnesium. Geographic information System (GIS) mapping was also carried out on the affected areas and results compared with the international standards. From the results, predominant soil class was clay loam which is excellent for rice growth while salinity levels were not in excess to lead to stress or low rice yield although very low values of N and K were recorded. EC, CEC and EA were well below critical levels in the soil and with the exception of OM, OC, MC and pH which were statistically significant at P < 0.05, other parameters were statistically non-significant. GIS mapping also showed traces of salt but not in high concentration levels as to result in crop stress.     

Yield and water productivity of rice–wheat on raised beds at New Delhi, India

Permanent raised beds are being proposed for the rice–wheat system in the Indo-Gangetic Plain to increase its productivity and to save water. It is not clear whether reported water savings in rice arise from the geometry of the beds per se or from the particular water management that keeps the soil in aerobic conditions and that can also be applied on flat land. Moreover, little research has been reported on direct seeding of rice on raised beds and on the effect of raised beds on the subsequent wheat crop. In this paper we compare the yield, input water (rainfall and irrigation) use and water productivity of dry-seeded rice on raised beds and flat land with that of flooded transplanted and wet-seeded rice, and analyze the effects of beds on the subsequent wheat crop. The experiment was conducted in 2001–2003 at New Delhi, India.

Rice yields on raised beds that were kept around field capacity were 32–42% lower than under flooded transplanted conditions and 21% lower than under flooded wet-seeded conditions. Water inputs were reduced by 32–42% compared with flooded rice, but could also be accomplished with dry seeding on flat land with the same water management. Reduced water inputs and yield reductions balanced each other so that water productivity was comparable among most treatments. Wheat yield was 12–17% lower on raised beds than on flat land with conventional (20 cm) row spacing. Neither wheat nor rice on raised beds compensated for the loss in rows by extra tillering or leaf growth at the edges of the rows. There was no carry-over effect of type of land preparation in rice on the growth and yield of the subsequent wheat crop. Further research on raised beds should focus on the selection of suitable rice and wheat varieties, soil health issues such as nematodes and micro-nutrient deficiencies, weed control, bed stability and long-term carry-over effects from one crop to the other.     

Genotypic Differences in Growth and Physiological Responses to Transplanting and Direct Seeding Cultivation in Rice

The field experiments were conducted to investigate the growth and physiological responses of six super hybrid rice combinations to two planting methods,transplanting(TP) and direct seeding(DS) during 2006-2007 and 2007-2008. The 1000-grain weight and number of tillers per plant at the early growth stage,the maximum quantum yield of PSII(Fv/Fm) and transpiration rate(Tr) were higher in DS plants than in TP ones,whereas the grain yield,number of panicles per square meter,seed setting rate,net photosynthetic ...     

钾肥施用对菜用大豆和普通大豆开花后氮素积累的影响

钾素营养充足,可以提高作物抗逆能力和产量。随着氮、磷肥在生产中施用的增加,钾肥已逐渐成为作物产量的最大限制因子。大豆开花后籽粒形成期是大豆氮素积累、产量提高的重要时期,文章对钾肥施用后菜用大豆和普通大豆两者开花后氮素的积累进行了比较研究。在正常氮磷种肥用量基础上,设置3种施钾处理:不施钾(K0)、种肥施钾120 kg·hm~(-2)(K1)、种肥施钾120 kg·hm~(-2)且在花、荚期喷施30 kg·hm~(-2)叶面钾肥(K2),探究菜用大豆、普通大豆开花后28~56 d内籽粒、叶片、茎中氮素积累动态。结果表明:施用钾肥增进两种类型大豆植株各部位中氮素积累。同时期内,两种类型大豆在各施肥处理下各部位的氮素积累量均为K2K1K0,大豆植株各部位中相对氮素累积量均为籽粒叶片茎。钾肥施用对提高菜用大豆籽粒氮素含量的效应高于普通大豆,与K0相比,K2处理下菜用大豆、普通大豆籽粒平均氮素含量分别增加了0.19%和0.1%。施用钾肥提高了菜用大豆叶片氮素转移效率,相比K0处理,K1、K2处理分别增加了6.1%、8.2%,而对普通大豆影响不大。钾肥施用显著增加普通大豆茎中氮素积累,但菜用大豆品种间差异较大。     

红壤性稻田紫云英与化肥减施对早稻品质与养分吸收的影响

[目的]阐明紫云英种植利用后减施化肥对早稻品质、养分吸收及土壤肥力的相互影响,为红壤稻田施肥提供科学依据.[方法]以红壤稻田为研究对象,2015年开始在江西高安大田定位研究种植利用紫云英对早稻生长发育及养分吸收利用的影响.设置6个试验处理:1)不施肥对照处理(CK);2)绿肥处理(G),即紫云英量22500 kg/hm...     

不同品种玉米对蔬菜大棚土壤次生盐渍化的改良效应

为了解玉米对蔬菜大棚土壤次生盐渍化的改良效应,以‘鲜玉糯2号’、‘泰系2号’、‘泰系3号’、‘伯洪5号’和‘美兰16号’5种玉米为研究对象,对其养分积累情况、不同土层养分和次生盐渍化的变化情况进行研究。结果表明：（1）‘鲜玉糯2号’的总生物量、吸氮量、吸磷量、吸钙量和吸镁量最高,分别为714.94、12.30、2.70、6.11、1.13 kg/667 m ²;（2）与不种植任何填闲作物的对照相比,各品种玉米对土壤0~20 cm的碱解氮、速效磷、速效钾、交换性钙和交换性镁含量均有一定的消减作用,其中‘鲜玉糯2号’对碱解氮、速效磷、交换性钙和交换性镁含量消减能力最佳;（3）种植玉米使土壤0~20 cm的电导率下降15.18%~35.43%,其中‘鲜玉糯2号’下降幅度最大。蔬菜大棚在休闲期种植玉米,能有效降低养分的积累,缓解土壤次生盐渍化。     

Irrigation of paddy soil with industrial landfill leachate: impacts in rice productivity,plant nutrition,and chemical characteristics of soil

Treated industrial effluents have high levels of nutrients and dissolved organic matter. The irrigation of rice by flooding can increase nutrient uptake and grain yield. Therefore, this study evaluated the nutrient contents in the shoots and grain of the rice crop and also the chemical of the soil after irrigation of the crop with leachate of the treated industrial effluent. A greenhouse experiment was conducted using pots filled with 20 kg of soil in a randomized block design with three replications. The treatments consisted of control (irrigation with distilled water) and four concentrations of the leachate (25, 50, 75, and 100 %) for irrigation. At the end of the experiment, the nutrient contents in tissues of rice plants, sterility of spikelets, and grain mass were evaluated. Results showed that irrigation with the leachate at 25 % content increased the macro- and micronutrients’ concentrations in the shoot biomass and grain, except for potassium and iron. Irrigation with the industrial leachate decreased tillering and grain yield; however, it increased chlorophyll content, sterility of spikelets, and sodium intake at this leachate concentration. The potassium and sodium levels and the electrical conductivity values of soils irrigated with treated industrial leachate were increased. The use of the treated leachate from industrial effluents is an alternative that reuses the nutritional load, but the volume of leachate should be limited and monitored to prevent the sodicity in the soil and problemsdue to eutrophication.     

田间低钾胁迫条件下水稻对钾的吸收和利用效率

通过田间试验,研究了在不同程度低钾胁迫条件下,杂交稻和常规稻在不同生育阶段对钾的吸收、分配和利用效率。在连续8季施氮、磷肥而不施钾肥的严重低钾胁迫条件下,施用钾肥使稻谷产量、水稻钾吸收总量显著增加而钾利用效率显著降低,同时表现出明显的耕作历史同施用钾肥间的交互作用。从幼穗分化期到抽穗期,水稻钾的积累量约占总积累量的一半以上,为水稻积累钾的关键时期。水稻对钾肥反应存在明显的品种间差异,在供钾充足条件下,杂交稻协优46的钾吸收量显著大于常规稻秀水11,但其钾利用效率却显著低于秀水11,表现出对钾的奢侈性吸收;在缺K条件下,杂交稻的钾吸收量低于常规稻,其钾利用效率与常规稻无明显差异。运用混合型离子交换树脂球测试法,可以了解淹水条件下土壤中生物有效性钾的动态变化特征,原地埋置7 d的树脂球的钾吸附量同水稻地上部分钾吸收量呈显著正相关。     

Alleviating soil sickness caused by aerobic monocropping: Responses of aerobic rice to nutrient supply

Yield decline is a major constraint in the adoption of monocropping of aerobic rice. The causes of the yield decline in the continuous aerobic rice system are still unknown. The objective of this study was to determine if nutrient application can mitigate the yield decline caused by continuous cropping of aerobic rice. Micro-plot experiment was conducted in 2005 dry season (DS) in a field where aerobic rice has been grown continuously for eight seasons from 2001 DS at the International Rice Research Institute (IRRI) farm. Pot experiments were done with the soil from the same field where the micro-plot experiment was conducted and aerobic rice has been grown continuously for 10 seasons. Apo, an upland rice variety, was grown under aerobic conditions with different nutrient inputs in field and pot experiments. The field micro-plot experiment showed that micronutrients had insignificant effect on plant growth under continuous aerobic rice cultivation but the combination of N, P, and K mitigated the yield decline of continuous aerobic rice. A series of pot experiments studying the individual effects of nutrients indicated that N application improved plant growth under continuous aerobic rice cropping, while P, K, and micronutrients had no effect. Increasing the rate of N application from 0.23 to 0.90 g per pot in the continuous aerobic rice soil increased the vegetative growth parameters, chlorophyll meter readings, and aboveground N uptake consistently. Our results suggested that N deficiency due to poor soil N availability or reduced plant N uptake might cause the yield decline of continuous cropping of aerobic rice.     

Chemical properties of Niger floodplain soils,eastern Nigeria,in relation to mineralogy

The agricultural potentials of the floodplain soils of river Niger have been less exploited due to lack of information on their chemical and mineralogical characteristics. We studied five soil profiles within the floodplain to determine the levels of plant nutrients and relate them to their clay mineralogy and total element. The soils flooded for eight months of the year are low in pH and plant available nutrients while the dominant clay mineral is kaolinite. Kaolinite and interlayered vermiculite were negatively correlated with all the exchangeable bases, CEC and available P, indicating the negative contribution of these clay minerals to the plant nutrient reserve of these soils. Illite correlated positively with Na⁺ and K⁺ (r=0.51; 0.50), while smectite correlated significantly with Na, K, Ca and CEC. Also positive significant correlation existed between illite/smectite and Na⁺, K⁺, Mg²⁺, CEC and base saturation thus confirming the positive role of smectite and illite to the plant nutrient reserve in the soils. Kaolinite and CaO could be used for the prediction of exchangeable K (R²=0.62, 0.78 respectively). Although the level of nutrient cations are low, the depositional effect of the river and traditional cultivation practices can boost crop yield especially paddy rice.     

水分管理对免耕抛秧水稻根系生长及产量的影响

研究了水分管理对免耕水稻根系生长和产量的影响。结果表明,干湿交替灌溉对根系的伸长、生长、生理及分布具有较大影响,水稻各生育期干湿交替灌溉处理水稻单株根干质量、单株生物量、根半径、根表面积、总根数、根系活力、超氧化物歧化酶活性均显著高于淹水淹灌。干湿交替灌溉处理实收产量显著高于淹水淹灌,增产主要因子是有效穗数、每穗粒数和结实率。灌浆盛期干湿交替灌溉处理单株生物量、根半径、根表面积、总根数、超氧化物歧化酶活性均显著高于湿润淹灌,水稻产量差异则不显著。     

Effect of <Emphasis Type="Italic">Pistia stratiotes</Emphasis>, cattle manure and wood vinegar (pyroligneous acid) application on growth and yield of organic rainfed rice

The effect of soil incorporation of water lettuce (Pistia stratiotes) and cattle manure and of wood vinegar (pyroligneous acid) foliar application on growth and yield of rainfed rice was studied with a four replications split plot in a farmer’s field in Thailand. P. stratiotes incorporation significantly increased the grain yield over nonincorporation with P. stratiotes. Cattle manure incorporation alone or combined with wood vinegar application significantly increased grain yield over wood vinegar and no-fertilizer application. Incorporation of P. stratiotes combined with cattle manure and wood vinegar application could not provide sufficient N to the rice crop, but it adequate for P and K. Plots with cattle manure incorporation combined with wood vinegar application exhibited the maximum K, P and N content in soil after harvest.     

Rice yield and its relation to root growth and nutrient-use efficiency under SRI and conventional cultivation: an evaluation in Madagascar

While plant growth and productivity are known to derive from the interaction between genetic potential (G) and environmental factors (E), efforts to improve rice production have usually proceeded assuming a standard E that is created by conventional rice-growing practices. Genotypes have been assessed for their performance in continuously flooded paddy soils, with optimally dense plant populations, with reliance on inorganic fertilization to raise yields. The System of Rice Intensification (SRI) developed in Madagascar and now becoming accepted in much of Asia proposes that GxE interactions can be made more productive with different management practices: optimally sparse populations, established with very young seedlings carefully transplanted, intermittent flooding of paddies, with active soil aeration and with soil organic matter enhanced as much as possible. This article evaluates the effects of alternative SRI cultural practices on grain yield with particular attention to their impact on the growth and functioning of rice plant roots and on associated nutrient-use efficiencies that could be contributing to the observed higher grain yields. On-station experiments and on-farm surveys were conducted in Madagascar to evaluate SRI practices in comparison with standard cultural methods, considering how rice plants’ expression of their genetic potential was affected by different crop management practices. Controlling for both soil and farmer effects, rice plants cultivated with SRI methods produced average yields more than double those from standard practice (6.26 vs. 2.63 t ha⁻¹). The most evident phenotypic difference was in plant root growth, assessed by root-pulling resistance (RPR), a summary measure of root system development. On average, uprooting single SRI plants required 55.2 kg of force plant⁻¹, while pulling up clumps of three conventionally grown plants required 20.7 kg hill⁻¹, or 6.9 kg plant⁻¹. SRI plants thus offered 8 times more resistance per plant to uprooting. Direct measurements confirmed that SRI methods induced both greater and deeper root growth, which could be contributing to increased nutrient uptake throughout the crop cycle, compared with the shallower rooting and shorter duration of root functioning under continuous flooding. Rice plants grown with SRI methods took up more macronutrients than did the roots of conventionally managed plants, which was reflected in the higher SRI yields. When grain yield was regressed on nutrient uptake to assess nutrient-use efficiency, SRI plants achieved higher grain yield per unit of N taken up, compared to plants grown with conventional methods. The internal efficiency (IE) of SRI plants in utilizing macronutrients was 69.2 for N, 347.2 for P, and 69.7 for K, while the IE in plants conventionally grown was 74.9, 291.1, and 70.4 for these three macronutrients, respectively. Although no significant differences in IE were observed for N and K, the uptake of P was significantly greater, indicating more efficient use of P by SRI plants for grain production. More research needs to be done on such relationships, but this study indicates that productive changes in the structure and functioning of rice plants, particularly their roots, can be induced by alternative management methods.     

Spatial variability in the growth of direct-seeded rainfed lowland rice (Oryza sativa L.) in northeast Thailand

Large within-field variation in rice growth often causes production loss in broadcast-seeded (BC) rainfed lowland rice. The spatial variability of direct-seeded rainfed lowland rice was evaluated in 2004, 2005, and 2007 in on-station experiments at Ubon Ratchathani, northeast Thailand, in relation to soil water content and weed infestation, by adopting semivariogram and block kriging, including comparisons among BC with harrowing (BCH; no weeding), BC with no harrowing (BCNH; no weeding), and row-seeded (RS; interrow weeding once) fields. BCH and BCNH were also compared in 11 farmers’ fields in 2006 and 2007, to assess the effect of harrowing on rice growth and weed infestation. During most of the rice growing periods, flooded and non-flooded portions existed simultaneously in the fields, with different proportions among years and among seeding methods in the on-station experiment. BCH and BCNH rice had large within-field variation in seedling density, heading date, shoot dry matter, grain yield, harvest index, panicle density, and filled spikelet per panicle, as well as in weed infestation, measured by a quick visual estimation. Many of the measured variables (except mean soil water content in RS in 2007, seedling density in BCH in 2005 and 2007, shoot dry matter in BCH and BCNH in 2007, and panicle density in BCH in 2007) were spatially dependent (i.e., data from nearby locations were most similar) by geostatistical analysis. Analysis of correlations using the 420 data sets of BCH plots in 2005 and BCH, BCNH, and RS plots in 2007 revealed a positive correlation between soil water content and grain yield and negative correlations between weed infestation and soil water content and grain yield. Compared with BCH, in 2007 BCNH had much lower grain yield because of lower soil water content after establishment and more weed infestation. BCH had higher grain yield than BCNH in weedy fields in the farmers’ fields experiment. RS with interrow weeding resulted in a smaller coefficient of variation, smaller sill value, and higher grain yield than BCH, due to less weed infestation and a higher proportion of flooded water. These results indicated that reducing the spatial variability in rice growth requires careful field preparation, such as harrowing to level the soil surface and to reduce the uneven distribution of standing water and the variability in soil water content, combined with effective crop and weed management (i.e., harrowing and row-seeding). This is the first study that examined spatial variability in the growth of direct-seeded rice as a function of soil water content and weed infestation in a rainfed lowland environment.     

杂交水稻不同器官重金属铅浓度与累积量

以生长于盆钵中的两系杂交稻和三系杂交稻共6个组合为试验材料,设置土壤铅(Pb)浓度为500mg/kg和不加Pb土壤(对照)两个处理,测定水稻植株不同器官Pb的浓度和累积量。结果表明,Pb处理降低了两优培九、103S/郑粳2号、丰优香占和汕优63的产量,主要是每穗粒数减少,对其余组合的产量无显著影响;不同基因型水稻植株对Pb吸收与积累存在差异,以103S/郑粳2号和两优培九累积量最多,K优818累积量最少;水稻植株不同器官Pb的浓度和累积量的大小顺序为根>茎鞘>叶片。籽粒不同部位Pb的浓度大小顺序为糠层>颖壳>精米,精米中Pb累积量仅为谷粒的25%左右,精米中Pb的浓度以103S/郑粳2号最高,K优818最低;在抽穗期和成熟期,同一器官Pb浓度与累积量呈显著或极显著正相关,但不同器官之间的相关不显著。对不同杂交稻组合植株中Pb浓度和累积量差异的原因进行了讨论。