施磷对稻田土壤及田面水磷浓度影响的模拟

通过施用不同剂量磷肥稻田土壤淹水培养试验,研究了施磷对稻田土壤及田面水磷浓度的影响.结果表明,土壤速效磷（Olsen-P）浓度在施磷后迅速下降,60 d后趋于稳定.随施磷量的增加,土壤速效磷和缓效磷库量均递增,Olsen-P与施磷量呈正相关关系(y=21.49+0.086x),表明该土壤有很高的固磷潜力.施磷后田面水中全磷浓度呈先迅速上升后又缓慢下降趋势,施磷120 d后,田面水中全磷浓度与施磷量呈指数相关关系(y=0.3 72e^0.0022x),施磷量在400～800 kg·hm^-2之间田面水全磷浓度加速增长,如果施磷量达到或超过800 kg·hm^-2,则磷容易进入田面水并导致流失,低于该施磷量时,则磷进入田面水中的量较少.利用分段回归模型模拟土壤Olsen-P与水面全磷关系,预测出导致田面水中磷激增的土壤Olsen-P浓度“突变点”为82.7 mg·kg^-1,即施磷量为712 kg·hm^-2.因此,土壤Olsen-P浓度可作为预测田面水中磷损失程度的指标.     

施磷对不同质地土壤Olsen-P和CaCl2-P动态变化的影响

通过对河北栾城农业生态站潮土和吉林白城淡黑钙土2种质地不同的土壤施用不同剂量磷肥,在25 ℃恒温条件下好气培养,培养期的第1、3、10、30和60天采集土样,测定土壤Olsen-P和CaCl2-P含量的动态变化,研究了磷肥施入土壤引起农业磷面源污染的可能性.利用Heckrath分段回归模型,分别对培养60 d后2种土壤Olsen-P、CaCl2-P含量进行拟合,得到土壤环境敏感磷临界点对应的土壤Olsen-P含量,以此证明土壤固磷能力.结果表明:当施磷量超过400 kg·hm-2时,2种土壤Olsen-P和CaCl2-P含量均显著增加,并且2种土壤在相同条件下培养后,同一处理的各组分有效磷的变化规律并不相同,说明当施磷量超过400 kg·hm-2,2种土壤磷流失的可能性均增加,并且不同类型土壤,磷流失能力也不同;培养60 d后拟合得到的栾城和白城土壤环境敏感磷临界点对应的土壤Olsen-P含量分别为88.9和142.5 mg·kg-1,表明白城土壤固磷能力明显高于栾城土壤.     

长期施肥条件下西南黄壤旱地有效磷对磷盈亏的响应

以贵州黄壤肥力与肥效长期定位试验为平台,探究有效磷(Olsen-P)与土壤累积磷盈亏、磷肥用量的关系,确定西南黄壤旱地最佳磷肥施肥量,通过Mitscherlich方程模拟作物相对产量对土壤Olsen-P的响应关系,明确西南黄壤旱地的农学阈值.结果表明: 施用磷肥可显著提高土壤Olsen-P含量,不同施磷处理间提升幅度主要与磷肥施用量有关;不施磷处理土壤磷素一直处于亏缺状态,施磷处理土壤磷素有盈余,其中全量有机肥配施全量化肥处理(MNPK)作物吸磷量和磷素盈余量最高,同等施磷水平下,与单施化肥处理(NPK)相比,有机肥配施化肥处理(1/4 M +3/4 NPK、1/2 M +1/2 NPK)更能促进作物对磷素的吸收,提高磷素累积利用率.土壤累积磷盈亏与土壤Olsen-P增量呈显著直线相关关系(P<0.05),土壤中磷素每盈余100 kg·hm^-2,MNPK、1/4 M +3/4 NPK、1/2 M +1/2 NPK、NPK处理Olsen-P分别增加16.4、13.0、21.4、5.6 mg·kg^-1,有机肥与化肥配施能有效增加土壤Olsen-P含量.西南黄壤旱地Olsen-P的农学阈值为22.4 mg·kg^-1;土壤每年磷盈亏和Olsen-P含量与磷肥施用量呈极显著正相关关系(P<0.01),磷肥用量(纯P)为每年33.3 kg·hm^-2时,土壤磷盈亏呈持平状态,Olsen-P农学阈值对应的施肥量(纯P)为每年45.9 kg·hm^-2.西南黄壤旱地Olsen-P含量主要与施磷水平有关,当年施磷量为45.9 kg·hm^-2时可获得最佳的作物产量,磷肥利用率高;当年施磷量高于45.9 kg·hm^-2时,作物产量对磷肥用量无响应,大量磷素累积在土壤中,增加了磷素的环境流失风险.西南黄壤旱地长期施用有机肥处理单位累积磷盈余量提升土壤Olsen-P的速率大于单施化学磷肥处理.     

我国23个土壤磷素淋失风险评估Ⅰ.淋失临界值

随着磷肥施用量增加,土壤磷素累积,由此所引起的土壤磷素流失(径流和淋失)越来越成为水体磷素的重要来源。研究从广西灵川、云南建水、贵州六枝、福建漳浦、浙江象山、江苏如皋、山东泰安、河南南阳、陕西延安、海南海口、湖北潜江、湖南长沙、北京海淀等13个省(市)采集23种耕地土壤,土壤风干过2mm筛后,加入0,30,40,60,100,160,200,240,300,400mg P／kg土(KH2PO4溶液),并将土壤湿度调节至约50％的田问持水量,25℃下培养4d后风干,再加水至约50％的田问持水量,同上培养再风干,如此进行干湿交替3次达到平衡后,分别用pH8．50．5mol／LNaHCO3溶液(Olsen-P)、0．01mol／L CaCl2溶液(CaCl2-P)和铁滤纸条(Fe-P)测定土壤含磷量。结果表明,Olsen-P与Fe-P呈极显著的线性关系,随着土壤Olsen-P或Fe-P的增加,CaCl2-P提高,存在一个明显的突变点,即土壤磷酸盐淋失临界值。但不同土壤其临界值差异很大,前者的Olsen-P在29．96～156．78mg／kg之间,相应的CaCl2-P为0．14～3.87mg／kg;而后者的Fe-P为0．69～2．17mg／kg,相应的CaCl2-P为0．30～7．38mg／kg。两种方法所得到的临界值大部分土壤十分接近,但一些土壤相差很大。根据所获得的临界值推断,供试的23个土壤中,采自浙江象山(9号)、江苏如皋(11号)的土壤极有可能已经发生了磷酸盐淋失,来自广西灵川(2号)、云南建水(3号)、河南南阳(15号)、陕西延安(17号和18号)土壤比较容易发生磷淋失,而来自贵州六枝(5号和6号)、浙江象山(10号)、湖北潜江(20号和21号)土壤则不太容易发生磷的淋失。     

Rapid whole-plant bioassay for phosphorus phytoavailability in soils

Chemical P extraction from soils is an indirect and frequently questionable index for P availability. To monitor the dynamics of P availability in soils more directly following the application of P fertilizer, manure or sludge, a rapid, whole-plant bioassay was developed using tomato (Lycopersicon esculentum Mill.), Chinese cabbage (Brassica rapa L. var.pekinensis) and wheat (Triticum aestivum L.). Plant P extracted in 0.1 M H₂SO₄ (P_i) and total P (P_t) concentration or content in stem, leaves or whole shoots were highly correlated (P < 0.01) with P fertilizer rates or water-soluble (WSP) or Olsen P in various soils, over wide ranges of soil P status. The whole-plant P_i content was found to be as informative as the more complicated indices of P_t or P_iconcentration. The assay was used to compare availability of fertilizer-P and sewage-sludge-P after incorporation into alluvial soil during 1–100 days of incubation. While both soil and plant indices had shown that fertilizer-P was more highly available than sewage-sludge-P in each period, the bioassay was much more sensitive than the Olsen-P or WSP soil indices in showing P fixation and decrease of availability during incubation time. The bioassay is sufficiently rapid (5–12 days) to allow a study of short-term changes in soil-P availability following incorporation of various P additives, and it is applicable to a very wide range of P availability values (6–535 mg Olsen-P kg^–1), extending from lower than desired for crop production to higher than permitted from an environmental standpoint.     

长期施用有机肥和过磷酸钙对潮土有效磷积累与淋溶的影响

利用20年定位试验研究了施用化肥和有机肥对潮土耕层土壤有效磷（Olsen-P）含量与作物产量的关系及土壤Olsen-P积累和垂直移动规律的影响.结果表明：土壤Olsen-P含量在10～40 mg·kg^-1能保证小麦、玉米有较高的产量,土壤Olsen-P含量大于40 mg·kg^-1发生显著淋溶,轻壤质潮土Olsen-P发生淋溶的阈值为40 mg·kg^-1.连续施用化肥（NPK）和秸秆还田处理（SNPK）施磷量在77～90 kg·hm^-2,平均每100 kg P·hm^-2使耕层土壤Olsen-P提高0.63～0.72 mg·kg^-1,每年提高0.49～0.65 mg·kg^-1,达到淋失阈值需要45～60年.有机肥与化肥结合（MNPK、MNPK2和1.5 MNPK）,年施磷量为210 kg·hm^-2时,土壤Olsen-P（Y）与施肥年度（x）的关系为：Y_{1.5 MNPK}=4.506x+6.4464 (R²=0.8862),平均每年增加4.5 mg·kg^-1,连续施用8年可使耕层土壤Olsen-P达到淋失阈值;年施磷量为125和140 kg·hm^-2时,土壤Olsen-P与施肥年度的关系为：Y_MNPK2=2.4765x+13.563 (R²=0.9307)和Y_MNPK=3.1097x+6.9615 (R²=0.8562),平均每年增加2.47和3.1 mg·kg^-1,连续施用11年可使耕层土壤Olsen-P达到淋失阈值.有机无机肥结合处理土壤Olsen-P积累速度是化肥处理的3.5倍,过量施用有机肥增加了土壤Olsen-P的积累和淋失.     

配施磷细菌肥对复垦土壤细菌多样性及磷有效性的影响

为了解磷细菌肥对复垦土壤微生物群落结构变化特征和磷有效性的影响,本研究以连续配施磷细菌肥5年的定位试验为背景,利用16S rDNA基因序列测序方法对土壤细菌群落多样性进行分析,探讨土壤细菌群落与土壤Olsen-P、碱性磷酸酶的关系.试验共设对照、单施化肥、有机肥、有机肥化肥、化肥磷细菌肥、有机肥磷细菌肥和有机肥化肥磷细菌肥7个处理.结果表明: 复垦土壤中放线菌门和变形菌门菌群的相对丰度最大,分别为21.6％～32.2％和13.8％～28.9％.有机肥化肥磷细菌肥处理的OTU数和Chao1指数分别为809和26190,均属最高.磷细菌肥处理能提高土壤中放线菌门和变形菌门菌群的相对丰度,降低土壤中酸杆菌门、热袍菌门和硝化螺旋菌门菌群的相对丰度,对诺卡氏菌属、屈挠杆菌属有一定的促进作用.有机肥化肥磷细菌肥处理能够提高复垦土壤Olsen-P及碱性磷酸酶活性.复垦土壤变形菌门与Olsen-P、碱性磷酸酶的相关系数最高(0.900、0.955),在一定程度上可以作为土壤磷有效性的灵敏性指标.     

Decreasing the Abundance of Juncus effusus on Former Agricultural Lands with Noncalcareous Sandy Soils: Possible Effects of Liming and Soil Removal

More and more agricultural land in the Netherlands is becoming available for ecological restoration projects. However, nutrient levels in the top layer of the soils are high because the agricultural lands have been heavily fertilized for decades. As drainage ditches are no longer maintained when agricultural use ends, the agricultural lands usually become much wetter. As a result, former agricultural soils tend to develop extensive monotonous stands of Juncus effusus , which have little value from an ecological point of view. In this article, we present the results of field measurements/observations and experiments to examine the relationship between nutrient availability and J. effusus growth. In addition, we present and discuss results of experiments to study the potential beneficial effects of liming. Our findings show that the growth of J. effusus on moist or wet soils seems to be strongly determined by the Olsen-P concentration in the soil. The restoration of diverse, species-rich vegetation types on former agricultural lands with a noncalcareous sandy soil will in most cases not be possible within a reasonable time span without topsoil removal. Liming might be a valuable additional measure to enhance the quality of the soil after topsoil removal, and to prevent mobilization of P to groundwater or surface water. If removal of the topsoil is considered to create P limitation, it is important to study P concentrations at various depths to establish the amount of soil that has to be removed.     

Recent advances in rice biotechnology--towards genetically superior transgenic rice

Rice biotechnology has made rapid advances since the first transgenic rice plants were produced 15 years ago. Over the past decade, this progress has resulted in the development of high frequency, routine and reproducible genetic transformation protocols for rice. This technology has been applied to produce rice plants that withstand several abiotic stresses, as well as to gain tolerance against various pests and diseases. In addition, quality improving and increased nutritional value traits have also been introduced into rice. Most of these gains were not possible through conventional breeding technologies. Transgenic rice system has been used to understand the process of transformation itself, the integration pattern of transgene as well as to modulate gene expression. Field trials of transgenic rice, especially insect-resistant rice, have recently been performed and several other studies that are prerequisite for safe release of transgenic crops have been initiated. New molecular improvisations such as inducible expression of transgene and selectable marker-free technology will help in producing superior transgenic product. It is also a step towards alleviating public concerns relating to issues of transgenic technology and to gain regulatory approval. Knowledge gained from rice can also be applied to improve other cereals. The completion of the rice genome sequencing together with a rich collection of full-length cDNA resources has opened up a plethora of opportunities, paving the way to integrate data from the large-scale projects to solve specific biological problems.     

Genetic engineering of rice to resist rice tungro disease

Rice tungro disease (RTD), caused by the co-infection of rice tungro bacilliform virus (RTBV) and rice tungro spherical virus, is one of the most important viral diseases of rice in South and Southeast Asia. The disease remains one of the major threats to sustainable rice production in many countries. The lack of resistance genes to RTBV—the causal agent of tungro disease—makes it even more difficult to manage RTD. In this review, we summarize previous and current research efforts to genetically engineer rice in order to increase the crop’s resistance to tungro disease, including the use of pathogen-derived resistance and of host genes that confer RTD resistance and/or that restrict feeding by the insect vector. The prospects of developing rice cultivars with durable resistance to RTD are also discussed.     

辽宁地区水稻资源抗稻瘟病基因的检测分析

为了明确辽宁地区水稻资源中抗稻瘟病基因的分布情况及抗病效应,选取辽宁地区水稻资源176份,鉴定了抗稻瘟病基因pi21、Pi36、Pi37、Pita、Pid2、Pid3、Pi5及Pib在这些材料中的分布情况,并接种鉴定了这些材料对稻瘟病的抗性。结果表明:176份供试材料中,83份对稻瘟病表现抗病,栽培稻、杂草稻及农家种中抗病品种所占的比率分别为41.48%、1.14%及4.54%。抗稻瘟病基因pi21、Pi36和Pi37在所有参试材料中均未检测到,且分别有74份、49份、47份、52份及89份材料携带Pita、Pid2、Pid3、Pi5及Pib的抗病等位基因。抗病基因绝大部分分布在栽培种中,农家种和杂草稻中分布较少。不含有抗稻瘟病基因和只携带单个抗病基因的材料对稻瘟病的抗性均较差,而抗病基因聚合可不同程度提高材料的抗性。经检测,不含有本试验鉴定的pi21等8个已克隆抗病基因的材料共32份,其中表现抗病的占21.87%;只携带1个抗稻瘟病基因的材料为52份,表现抗病的占17.31%;携带2个抗稻瘟病基因的材料为39份,表现抗病的占69.23%,其中以携带Pita+Pi5的材料最多(14份),且均表现抗病;携带3个抗稻瘟病基因的材料为31份,表现抗病的占77.42%,以携带Pita+Pid3+Pi5的材料抗性最强;携带4个抗稻瘟病基因的水稻材料22份,表现抗病的占72.73%,携带5个抗病基因的水稻材料未检测到。     

田埂留草控制稻飞虱效果及对捕食性天敌多样性影响

为探讨稻田田埂保留杂草控制稻飞虱的效果及对捕食性天敌多样性的影响,以稻田田埂周年性保留杂草为处理,以稻田田埂不保留杂草为对照,对处理区和对照区稻田稻飞虱成若虫、捕食性天敌种类和数量进行系统调查和分析。结果表明,在调查期内(6—10月),田埂留草稻田百丛稻株稻飞虱数量为(891.11±133.12)头,较非留草稻田减少35.31%;田埂留草稻田捕食性天敌隶属5目23科35种,而田埂非留草稻田隶属5目21科33种;田埂非留草稻田捕食性天敌优势种为食虫沟瘤蛛Ummeliata insecticepsBoes.etStr.、拟水狼蛛Pirata subpiraticus Boes.etStr.和黑肩绿盲蝽Cyrtorrhinus livdipennis Reuter,而田埂留草后优势种为食虫沟瘤蛛U.insecticeps、草间小黑蛛Erigonidium graminicolum(Sundevall)、拟水狼蛛和拟环纹狼蛛Lycosa pseudoamulata(Bose.etStr.);田埂留草稻田捕食性天敌的个体数量、丰富度、多样性指数分别为(128.89±13.52)、(33.67±0.50)、(4.53±0.04)头/百丛,较田埂非留草稻田分别增加31.96%、25.73%、5.59%,而优势度指数和均匀性指数没有显著变化。研究结果为发展稻田景观多样化控害提供依据。     

产大米蛋白水解酶的菌株筛选、酶学性质及制备大米寡肽

【目的】旨在分离、筛选并鉴定具有大米蛋白降解作用的菌株及其关键蛋白酶,为高效制备大米寡肽提供制备酶及最优制备条件。【方法】以"水解圈"为评价指标,从粮食仓库附近土壤筛选获得具有降解大米蛋白能力的菌株;通过16S rRNA序列分析确定菌株归属;利用单因素实验获得最佳氮源并初步分析酶学性质;利用HPLC检测寡肽得率,并对制备条件进一步优化。【结果】经鉴定具有大米蛋白降解作用的菌株为沙雷氏菌(Serratia sp. JWG-D15),以大米蛋白为氮源培养菌株JWG-D15,蛋白酶So PRO产量最高,其最适温度40℃,最适pH 8.0;在加酶量20 U/mg,大米蛋白浓度40 mg/mL,40℃,4 h条件下寡肽得率最高72.38%。【结论】以大米蛋白为氮源培养菌株JWG-D15,蛋白酶So PRO产量最高;蛋白酶So PRO制得的大米寡肽,其得率是目前行业最高。本研究既丰富了大米寡肽的制备用酶的种类,又为深入大米寡肽产业化提供一定理论基础。     

Lectin from rice

N-Acetyl-D-glucosamine-binding lectin was isolated and purified from rice by ammonium sulphate fractionation and affinity chromatography using N-acetyl-D-glucosamine linked Sepharose 6B column. It gave a single hand on Polyacrylamide disc gel. It was identified as a glycoprotein. The purified lectin dissociated into two components on Sephadex G-100 column chromatography,-a higher molecular weight fraction not containing any carbohydrate and a lower molecular weight glycoprotein fraction. The apparent molecular weights of these fractions were 85,000 and 14,500. The lectin agglutinated erythrocytes of human A,B,O groups and of several other mammals and its activity was inhibited only by N-acetyl-D-glucosamine. The glycopeptide isolated by pronase digestion of the lectin was homogeneous and did not possess agglutinating activity. It contained about 10% carbohydrate of which xylose, arabinose and glucose were the major components.     

Deep rice root systems reduce methane emissions in rice paddies

Plant and Soil - Phosphorus (P) mobility depends on the availability of water in soil, both of which are limited resources for crop production. We studied the mechanisms governing tolerance to...     

Induced volatiles in elicitor-treated and rice blast fungus-inoculated rice leaves

The volatiles released from elicitor (copper chloride, jasmonic acid, UV, L-methionine and chitosan oligomer)-treated and rice blast fungus-inoculated rice leaves were collected by the solid-phase microextraction technique and analyzed by GC-MS. (Z)-3-Hexen-1-ol, monoterpenes, methyl salicylate, and sesquiterpenes were identified as elicitor-induced volatiles by a comparison of their GC retention times and mass spectra with those of authentic compounds. The different elicitors resulted in some qualitative and quantitative differences in the production of volatiles. Monoterpenes and sesquiterpenes were identified as the rice blast fungus-induced volatiles.     

Nitrogen immobilization by rice straw incorporated in lowland rice production

Summary The nitrogen supplying power of rice straw for flooded rice production was studied in three field experiments. The net nitrogen immobilization was observed to be 0.54 per cent of the original dry weight of the straw as determined by grain yield responses over single growing seasons. Straws with higher nitrogen concentrations increased grain yield on nitrogen deficient soil, and straws with lower nitrogen concentrations depressed yield.Supplemental nitrogen applied in either urea or vetch resulted in yield increases in the presence of both high and low nitrogen straws. No significant immobilization of supplemental nitrogen was found to result from straw applications.The net nitrogen immobilization percentage obtained in these experiments is approximately one-third the average of values obtained by other workers. We infer that the anaerobic environment of the flooded rice field and its associated bacterial microflora are the cause for the lesser nitrogen requirement for the field decomposition of rice crop residues.