CN103926348A - Analytical method of simultaneously measuring residues of organophosphorus pesticide and pyrethriods pesticide in fresh leaves - Google Patents

Abstract

The invention discloses an analytical method of simultaneously measuring the residues of organophosphorus pesticide and pyrethriods pesticide in fresh leaves. The analytical method is characterized in that performing supersonic extraction on a tea fresh leaf sample by using an acetonitrile solution with the volume fraction of acetic acid being 1%, purifying by a proper amount of a PSA,C18 and GSB mixing padding, performing nitrogen blowing concentration on supernatant liquid to be almost dried, making up to volume by acetone and normal hexane, performing heating separation by DB-1701 and HP-5 quartz capillary columns, detecting GC/FPD and GC/muECD, and finally performing quantitative measuring by adopting a basic external standard method. Tests show that a linearity range is wide through, technical indexes such as detection sensitivity, accuracy and precision all meet requirements of residue analysis, the pretreatment operation is simple, convenient and rapid, and reliable methods are provided for analytical investigation of simultaneously measuring the residues of the organophosphorus pesticide and pyrethriods pesticide.

Description

Measure organic phosphates and pyrethroid pesticide remained quantitative analysis method in the fresh leaf of tea simultaneously

Technical field

The present invention relates to the analytical approach field of persticide residue, be specifically related to a kind of measure organic phosphates and pyrethroid pesticide remained quantitative analysis method in the fresh leaf of tea simultaneously, this analytical approach is to adopt improved QuEChERS method that the fresh leaf of tea is extracted, purified, by vapor-phase chromatography, organophosphorus and pyrethroid pesticide are detected again, to reach quick, easy, reliable object.

Background technology

Tealeaves is one of the world's three large plant beverages, because of its unique mouthfeel and there is anticancer, anti-sudden change, remove free radical, favor that the health-care efficacy such as delay senility is more and more subject to people.China is Tea Production big country Ye Shi big export country, applying pesticides is to guarantee tea yield, control and in its growth course, avoid the most effective means that disease and pest threatens, organophosphorus insecticide (English name: Organophosphorus pesticides) and pyrethroid pesticide (English name: Pyrethroid pesticides) because of wide spectrum, efficiently, cost is low, consumption is widely used in tealeaves disease and pest less preventing and controlling.But existing studies confirm that this two classes agricultural chemicals can produce toxic action to the nervous system of human body, that part kind has is carcinogenic, teratogenesis, mutagenesis and certain property accumulated, and excessive use is likely accumulated in human body, causes chronic accumulate poisoning.Therefore, about organophosphorus and pyrethroid two class agricultural chemicals, residual in tealeaves is the focal issue that people pay close attention to always.

Many countries, particularly European Union and Japan have formulated harsh Pesticide Residue rules in the world, to limit the maximum residue limit (MRL) of Pesticides in Tea medicine.China standard GB/T 2763-2012 < < Pesticide maximum residue limit > > has stipulated the MRL of 25 kinds of agricultural chemicals in tealeaves, and No. 199 > > of < < The Ministry of Agriculture of the People's Republic of China, MOA bulletin stipulated that 21 kinds of agricultural chemicals forbid or be limited in tealeaves using.European Union has issued new Pesticide Residue Standard andRegulation (EC) No149/2008 on March 1st, 2008, upgraded the MRL of Pesticide Residues in Tea, new legislation relates to 221 of the existing limit standards of Pesticide Residues in Tea, 171 of provisional limit standards, totally 392, and more than 90% pesticide recovery method detection limit is as MRL.Japan is agricultural chemicals " Positive List System " in formal enforcement on May 29th, 2006 food, in this system, the Pesticide Residue standard relevant with tealeaves reaches 251, and the MRL of most of agricultural chemicals requires to be not more than 0.1mg/kg, to setting the agricultural chemicals of limit standard, all do not carry out " uniform limit ", be that content must not surpass 0.01mg/kg, and all adopt " dry tea method " to detect.This has limited the outlet of China's tealeaves to a great extent, the detection of Pesticide Residues in Tea is also had higher requirement simultaneously.

In recent years, existing many research reports of the analytical approach of relevant Pesticide Residues in Tea, but mainly concentrate on on tea, few to the residual research in the fresh leaf of tea.The fresh leaf of tea, as the raw material of Tea Processing, is the material base that determines tea leaf quality, and its quality is directly connected to the quality of tea leaf quality.Therefore, the persticide residue of directly measuring in the fresh leaf of tea has important practical significance, and not only can realize the source of tealeaves agricultural chemicals and control, and effectively guides peasant correctly to tea place medication, improve the security of drinking tea, and can reduce agricultural chemicals and use unreasonably tea garden soil environment.

Because likeing, the fresh leaf of tea to tea, contains the interfering materials such as more moisture, pigment, water-soluble ass, Tea Polyphenols, more easily cause extraction and cleaning difficulty, therefore the detection method of organic phosphates and pyrethrin pesticide in existing mensuration tealeaves, is not suitable for the mensuration of the fresh phyllopodium matter of tea.Though domestic, there are some about the residual research work report of the fresh leaf agriculture of tea, only relate to the detection of the organo-chlorine pesticides such as benzene hexachloride, D.D.T. (dichloro-diphenyl-trichloroethane) and a few pyrethrin pesticide, less to the detection method research of other type agricultural chemicals such as organophosphorus.Analyze the residue analysis method of multiple organic phosphates and pyrethrin pesticide in the fresh leaf of tea simultaneously and rarely have especially report.And in the fresh leaf residues of pesticides of tea leaching process, existing report mainly uses the methods such as traditional mechanical shaking extraction, homogeneous extraction, liquid-liquid extraction, purification means adopt concentrated acid sulfonation method and column chromatography purification method for different target agricultural chemicals more.These pre-treating methods consume that organic solvents are many, sample flux is little, are of limited application, complex operation, expend time in, cost is high, how residual for multiclass is not simply or effective method.

Summary of the invention

The invention provides a kind of measure organic phosphates and pyrethroid pesticide remained quantitative analysis method in the fresh leaf of tea simultaneously, the detection method length consuming time, complex operation, consumption organic solvent that its object is to solve organic phosphates and pyrethrin pesticide in existing mensuration tealeaves mainly with and the reliable and stable not problem of testing result.

For achieving the above object, the technical solution used in the present invention is: a kind ofly measure organic phosphates and pyrethroid pesticide remained quantitative analysis method in the fresh leaf of tea, described analytical approach is comprised of two parts simultaneously:

First, sets up respectively the tested organophosphorus pesticide of known gradient concentration and the typical curve of pyrethroid pesticide by vapor-phase chromatography; The foundation of described typical curve is comprised of following steps:

The first step, prepares blank matrix extract, and preparation method is comprised of following steps:

(1) take 5.0g after measured not containing tested organophosphorus pesticide and the fresh leaf sample of blank tea of pyrethroid pesticide, be placed in 50mL centrifuge tube, in centrifuge tube, add 10mL to contain the acetonitrile solution that volume fraction is 1% acetic acid again, mix, ultrasonic extraction 10～15min, then add 2g anhydrous sodium acetate and 1g anhydrous magnesium sulfate, vortex 1.5min～2.5min, then, with the centrifugal 3.5min～4.5min of rotating speed of 9000r/min, get supernatant and be blank matrix extract to be clean;

(2) separately get a 10mL centrifuge tube, add 0.15g C18,0.15g N-propyl group ethylenediamine, 0.12g ketjenblack EC and 0.3g anhydrous magnesium sulfate, add blank matrix extract to be clean described in 4mL, vortex 1.5min～2.5min, with the centrifugal 4.5min～5.5min of rotating speed of 9000r/min; After centrifugal, pipette in 2 portions of supernatants to 2 scale test tube, every portion of supernatant is 1.5mL, then under 50～60 ℃ of water-baths, every portion of supernatant is slowly blown to 50～70 μ L with nitrogen; In a supernatant, add acetone to be settled to 0.75mL therein again, cross after organic system filter membrane, obtain for preparing the blank matrix extract of organophosphorus pesticide, in another portion of supernatant, add normal hexane to be settled to 0.75mL, cross after organic system filter membrane, obtain the blank matrix extract of pyrethroid pesticide;

Second step, the blank matrix extract that obtains in the described first step of take is prepared respectively the matrix hybrid standard working solution of organophosphorus pesticide and the matrix hybrid standard working solution of pyrethroid pesticide as solvent, wherein, described organophosphorus pesticide refers to DDVP, Rogor, chlopyrifos, parathion-methyl, malathion, fenifrothion, Hostathion, and described pyrethroid pesticide refers to Fenpropathrin, gamma cyhalothrin, Permethrin, cyfloxylate, cypermethrin, fenvalerate, decis; In the matrix hybrid standard working solution of described organophosphorus pesticide, in the concentration range of each organophosphorus pesticide and the matrix hybrid standard working solution of described pyrethroid pesticide, the concentration range of each pyrethroid pesticide is:

The 3rd step, chromatographic peak retention time and chromatographic peak area with each pesticide composition in the matrix hybrid standard working solution of organophosphorus pesticide described in gas chromatography determination and the matrix hybrid standard working solution of pyrethroid pesticide, qualitative with chromatographic peak retention time, then take mass concentration as horizontal ordinate, the chromatographic peak area of take is drawn out the typical curve of organophosphorus pesticide and pyrethroid pesticide as ordinate;

Wherein, the chromatographic condition of mensuration organophosphorus pesticide is:

Chromatographic column: the capillary chromatographic column that model is DB-1701, specification is 30m * 0.32mm * 0.25 μ m; Sample size: 1.0 μ L, Splitless injecting samples; Injector temperature: 220 ℃, dottle pin purges 3mL/min; Column temperature: 90 ℃ of initial temperatures, keep 1min, 20 ℃/min rises to 200 ℃, keeps 9min, and 30 ℃/min rises to 245 ℃, keeps 8min; Carrier gas: high pure nitrogen, purity >=99.999%; Constant current mode, flow velocity 3mL/min; Detecting device: flame photometric detector (FPD); Detector temperature: 245 ℃; Hydrogen: flow is 75mL/min; Air: flow is 100mL/min; Make-up gas: high pure nitrogen, flow is 60mL/min;

The chromatographic condition of measuring pyrethroid pesticide is:

Chromatographic column: the capillary chromatographic column that model is HP-5, specification is 30m * 0.32mm * 0.25 μ m; Sample size: 1.0 μ L, Splitless injecting samples; Injector temperature: 220 ℃, dottle pin purges 3mL/min; Column temperature: 80 ℃ of initial temperatures, keep 0.3min, 30 ℃/min rises to 180 ℃, keeps 5min, and 20 ℃/min rises to 260 ℃, keeps 23min: carrier gas: high pure nitrogen, purity >=99.999%; Constant current mode, flow velocity 1mL/min; Detecting device: micro-pond electron capture detector; Detector temperature: 300 ℃; Make-up gas: high pure nitrogen, 60mL/min;

Second portion, measures 7 kinds of organophosphorus pesticides and 7 kinds of pyrethroid pesticide residual quantities in first described in the fresh leaf sample of tea, and analytical approach comprises the following steps:

The first step, extracts the fresh leaf sample of tea;

Take the fresh leaf sample of the tea of having pulverized, be placed in 50mL centrifuge tube, then to add containing volume fraction be the acetonitrile solution of 1% acetic acid, wherein, the input ratio of the fresh leaf sample of described tea and described acetonitrile solution, for to drop into 1mL acetonitrile solution in the fresh leaf sample of every 0.5g tea, mixes, ultrasonic extraction 10～15min; Add again anhydrous sodium acetate and anhydrous magnesium sulfate, wherein, the fresh leaf sample of described tea, anhydrous sodium acetate and anhydrous magnesium sulfate three's mass ratio is 5:2:1, vortex 1.5min～2.5min, with the centrifugal 3.5min～4.5min of rotating speed of 9000r/min, get supernatant and be the fresh leaf sample extracting solution of tea to be clean;

Second step, purifies the fresh leaf sample extracting solution of described tea to be clean;

Separately get a 10mL centrifuge tube, add C18, N-propyl group ethylenediamine, ketjenblack EC and anhydrous magnesium sulfate, add the fresh leaf sample extracting solution of described tea to be clean, wherein, the content of C18, N-propyl group ethylenediamine, ketjenblack EC and the anhydrous magnesium sulfate dropping in the fresh leaf sample extracting solution of tea to be clean is respectively 37.5mg/mL, 37.5mg/mL, 30mg/mL and 75mg/mL, vortex 1.5min～2.5min, with the centrifugal 4.5min～5.5min of rotating speed of 9000r/min; After centrifugal, pipette in 2 portions of supernatants to 2 scale test tube, every portion of supernatant is 1.5mL, under 50～60 ℃ of water-baths, every portion of supernatant is slowly blown to 50～70 μ L with nitrogen; In a supernatant, add acetone to be settled to 0.75mL therein again, cross after organic system filter membrane, obtain for measuring the fresh leaf sample extraction of the tea scavenging solution of organophosphorus pesticide, in another portion of supernatant, add normal hexane to be settled to 0.75mL, cross after organic system filter membrane, obtain for measuring the fresh leaf sample extraction of the residual tea of pyrethroid pesticide scavenging solution;

The 3rd step, residual with organophosphorus pesticide and pyrethroid pesticide in the fresh leaf sample extraction of tea described in gas chromatography determination scavenging solution, record chromatographic peak retention time and chromatographic peak area, after qualitative by chromatographic peak retention time, the organophosphorus pesticide that the detected chromatographic peak area of the fresh leaf sample extraction of described tea scavenging solution and described first are obtained and the typical curve of pyrethroid pesticide compare, the every kind of organophosphorus pesticide that obtains containing in the fresh leaf sample extraction of described tea scavenging solution and the measured value of pyrethroid pesticide; Again described measured value is brought in quantitative computing formula, finally obtains organophosphorus pesticide residual quantity to be measured and pyrethroid pesticide residual quantity in the fresh leaf sample of tea;

Quantitative computing formula: ω=(ρ * v * f)/m, in formula: ω is organophosphorus pesticide residual quantity to be measured or pyrethroid pesticide residual quantity to be measured in sample, and unit is mg/kg; ρ is measured value, and unit is mg/L; M is the sample size taking, and unit is g; V is constant volume, and unit is mL; F is extension rate;

Wherein, measure the chromatographic condition of organophosphorus pesticide in the fresh leaf sample extraction of described tea scavenging solution and the organophosphorus pesticide in the chromatographic condition of pyrethroid pesticide and the 3rd step of described first and pyrethroid pesticide identical.

Related content in technique scheme is explained as follows:

1, in such scheme, the standard reserving solution mass concentration of described DDVP, Rogor, chlopyrifos, parathion-methyl, malathion, fenifrothion, Hostathion, Fenpropathrin, gamma cyhalothrin, Permethrin, cyfloxylate, cypermethrin, fenvalerate, these 14 kinds of agricultural chemicals of decis is 1000mg/L, is purchased from Inst. of Environment Protection & Scientific Research Monitor, Ministry of Agric;

Normal hexane is HPLC level, and manufacturer is Sweden Oceanpak company; Acetone is HPLC level, and manufacturer is Shanghai Chemical Reagent Co., Ltd., Sinopharm Group; N-propyl group ethylenediamine (English referred to as PSA), particle diameter is 40～60 μ m, manufacturer is U.S. Agela Technologies company; Ketjenblack EC (English referred to as GCB), particle diameter 120～400 orders, manufacturer is U.S. Agela Technologies company; C18, aperture 6nm, granularity 40～60 μ m, manufacturer is U.S. Sepax Technologies company; Acetonitrile, acetic acid, anhydrous sodium acetate, anhydrous magnesium sulfate, all need be analysis pure at 620 ℃ of calcination 4h, and manufacturer is Shanghai Chemical Reagent Co., Ltd., Sinopharm Group; Experimental water is ultrapure water (18.4M Ω).

2, in such scheme, before the preparation matrix hybrid standard working solution of organophosphorus pesticide and the matrix hybrid standard working solution of pyrethroid pesticide, first prepare organophosphorus pesticide hybrid standard storing solution and pyrethroid pesticide hybrid standard storing solution, agricultural chemicals hybrid standard storing solution prepares to be placed in 4 ℃ of refrigerators and preserves, and the blank matrix extract of take during use is mixed with the agricultural chemicals matrix hybrid standard working solution of debita spissitudo as solvent;

Wherein, the compound method of organophosphorus pesticide hybrid standard storing solution is: 7 kinds of organophosphorus pesticide standard reserving solution concentration are 1000mg/L, get respectively 1mL and are placed in 5mL volumetric flask, use acetone diluted constant volume, being mixed with concentration is single mark solution of 200mg/L, in-20 ℃ of lucifuge sealings, preserves.Response according to each agricultural chemicals on FPD detecting device, single mark solution DDVP is got 0.5mL, and Rogor, Hostathion are respectively got 2mL, and all the other organophosphorus list mark solution are respectively got 1mL, are placed in 10mL volumetric flask, use acetone constant volume.In 7 kinds of organophosphorus pesticide hybrid standard storing solutions: DDVP concentration is 10mg/L, chlopyrifos, parathion-methyl, fenifrothion, malathion concentration are respectively 20mg/L, and Rogor, Hostathion concentration are respectively 40mg/L;

The compound method of pyrethroid pesticide hybrid standard storing solution is: 7 kinds of pyrethroid pesticide standard reserving solution concentration are 1000mg/L, get respectively 1mL and be placed in 5mL volumetric flask, with normal hexane, dilute constant volume, being mixed with concentration is single mark solution of 200mg/L, in-20 ℃ of lucifuge sealings, preserves.Response according to each agricultural chemicals on μ ECD detecting device, single mark solution gamma cyhalothrin is got 0.1mL, and Fenpropathrin, cyfloxylate are respectively got 0.25mL, and all the other pyrethroid pesticide list mark solution are respectively got 0.5mL, be placed in 10mL volumetric flask, use normal hexane constant volume.In 7 kinds of pyrethroid pesticide hybrid standard storing solutions: gamma cyhalothrin concentration is 2mg/L, Fenpropathrin, cyfloxylate concentration are respectively 5mg/L, and Permethrin, cypermethrin, fenvalerate, decis concentration are respectively 10mg/L.

3, in such scheme, use 7 kinds of organophosphorus pesticides of gas chromatography determination and 7 kinds of pyrethroid pesticides, qualitative with retention time, peak area external standard method is quantitative; For the pyrethroid pesticide that contains 2 and 2 above isomeride, with the peak area sum of each isomeride, calculate the measured value of this kind of pyrethroid pesticide.

4, in such scheme, preferably scheme be the condition of ultrasonic extraction in the first step of described first and the first step of described second portion be ultrasonic power between 80W～100W, ultrasonic temperature is at 20～30 ℃.

Principle of work of the present invention and beneficial effect are: 2003, the people such as Anastassiades M of agricultural research service centre of United States Department of Agriculture have proposed (Quick of a kind of being called as " QuEChERS ", Easy, Cheap, Effective, Rugged and Safe) many residual sample of novel agrochemical preparation method.The method dirigibility is strong, applied range, can be per sample and the feature of target analytes, select applicable extraction solvent and purify filler, there is the advantages such as quick, easy, efficient, safe, be successfully applied at present the analysis and research of hundreds of residues of pesticides in food, but application report in the fresh leaf of tea is less." QuEChERS " method recommendation gas chromatography-mass spectrography (GC-MS) or HPLC-MS (HPLC-MS) carry out follow-up detection analysis, although GC-MS, HPLC-MS not only can be qualitative but also can be quantitative, the trend of pesticide residue analysis method development, but instrument is expensive, high to operative technique requirement, thus limited its widespread use.Gas chromatograph (GC) is as the conventional analytical instrument in laboratory, its moderate cost, applied range, is equipped with the detecting device that specificity is stronger, can obtain good selectivity and lower detectability, be one of the most general detection means of testing agency of current vast basic unit application.

For current basic unit, detect department and mostly there is no expensive gas chromatograph-mass spectrometer, only has common gas chromatograph, and organic phosphates and pyrethrin pesticide need to be distinguished sample preparation while detecting, the deficiency of pre-treatment complex operation, the present invention adopts improved " QuEChERS ", and method is extracted the fresh leaf of tea, purify, adopt gas chromatographic flame photometric detector (English name GC/FPD) and micro-pond electron capture detector (English name GC/ μ ECD) respectively organic phosphates and pyrethrin pesticide to be detected, 14 kinds of organic phosphates and pyrethroid pesticide remained fast and convenient have been set up in the fresh leaf of tea, reliable analytical approach saves time.

The fresh leaf sample of tea is the ultrasonic extraction of acetonitrile solution of 1% acetic acid with containing volume fraction, with appropriate PSA, C18 and GCB mixed fillers, purify again, supernatant liquid nitrogen blows and is concentrated near doing, use respectively acetone and n-hexane dissolution constant volume, DB-1701 is separated with HP-5 quartz capillary column and programmed temperature, GC/FPD and GC/ μ ECD detect, and finally use matrix external standard method quantitative.By test, confirm, the method range of linearity is wide, and the technical indicators such as detection sensitivity, accuracy and precision all meet the requirement of retention analysis, for organophosphorus and pyrethroid pesticide remained analysis and research in the fresh leaf of tea provide reliable means.

Compare with national standard method with existing Pesticide Residues in Tea detection method, pre-treatment of the present invention is simple to operate, and extraction and cleanup only needs several steps to complete, and adopting ultrasonic method while extracting, result is stable, reproducible, facilitate the processing of follow-up batch sample, practicality is stronger; Purification process avoids using decontaminating column and a large amount of solvent elution, and agricultural chemicals loss is few, and the recovery is high, and the time and the organic solvent that expend greatly reduce simultaneously, save testing cost, and environmental pollution is little, also safer to operator.Detect and analyze the conventional gas chromatograph (being furnished with FPD and μ ECD) in employing laboratory, moderate cost, Operation and Maintenance is simple, and technical requirement is strict not as application of gas chromatorgraphy/mass, is more suitable for applying in testing agency of vast basic unit.Quantivative approach adopts the calibration of matrix matching standard solution quantitatively, has reduced the matrix effect of agricultural chemicals to be measured, and measurement result is more accurate.Analytical approach of the present invention can be measured organophosphorus and pyrethroid pesticide remained amount in the fresh leaf of tea simultaneously, fast and easy, and on the indices such as accuracy, precision, sensitivity, all meet the requirement that pesticide multi-residues is analyzed, for tea quality, control monitoring method and the foundation that science is provided, there is certain popularizing value.

Accompanying drawing explanation

Accompanying drawing 1 is the matrix hybrid standard working solution chromatogram of 7 kinds of organophosphorus pesticides in the embodiment of the present invention;

Accompanying drawing 2 is the matrix hybrid standard working solution chromatogram of 7 kinds of pyrethroid pesticides in the embodiment of the present invention;

Accompanying drawing 3 is 14 kinds of agricultural chemicals matrix effect figure in the fresh leaf of tea in the embodiment of the present invention;

Accompanying drawing 4 is that in the embodiment of the present invention, the fresh leaf of tea for the recovery and precision mensuration adds 7 kinds of organophosphorus pesticide standard colors spectrograms;

Accompanying drawing 5 is that in the embodiment of the present invention, the fresh leaf of tea for the recovery and precision mensuration adds 7 kinds of pyrethroid pesticide standard colors spectrograms.

Embodiment

Below in conjunction with drawings and Examples, the invention will be further described:

Embodiment: a kind ofly simultaneously measure organic phosphates and pyrethroid pesticide remained quantitative analysis method in the fresh leaf of tea

For the fresh leaf of examination tea, take from local certain tea plantation in Suzhou City, through comminutor, smash and mix, pack clean container into, be placed in-20 ℃ of refrigerators and preserve, standby.Described analytical approach is comprised of two parts:

First, sets up respectively the tested organophosphorus pesticide of known gradient concentration and the typical curve of pyrethroid pesticide by vapor-phase chromatography; The foundation of described typical curve is comprised of following steps:

The first step, prepares blank matrix extract, and preparation method is comprised of following steps:

(1) take 5.0g after measured not containing tested organophosphorus pesticide and the fresh leaf sample of blank tea of pyrethroid pesticide, be placed in 50mL centrifuge tube, in centrifuge tube, add 10mL to contain the acetonitrile solution that volume fraction is 1% acetic acid again, mix, ultrasonic extraction 10～15min, ultrasonic power is between 80W～100W, ultrasonic temperature is at 20～30 ℃, add again 2g anhydrous sodium acetate and 1g anhydrous magnesium sulfate, vortex 1.5min～2.5min, then, with the centrifugal 4min of rotating speed of 9000r/min, get supernatant and be blank matrix extract to be clean;

(2) separately get a 10mL centrifuge tube, add 0.15g C18,0.15g N-propyl group ethylenediamine, 0.12g ketjenblack EC and 0.3g anhydrous magnesium sulfate, add blank matrix extract to be clean described in 4mL, vortex 2min, with the centrifugal 4.5min～5.5min of rotating speed of 9000r/min; After centrifugal, pipette in 2 portions of supernatants to 2 scale test tube, every portion of supernatant is 1.5mL, then under 50～60 ℃ of water-baths, every portion of supernatant is slowly blown to 50～70 μ L with nitrogen; In a supernatant, add acetone to be settled to 0.75mL therein again, cross after organic system filter membrane, obtain for preparing the blank matrix extract of organophosphorus pesticide, in another portion of supernatant, add normal hexane to be settled to 0.75mL, cross after 0.22 μ m organic system filter membrane, obtain the blank matrix extract of pyrethroid pesticide;

Second step, the blank matrix extract that obtains in the described first step of take is prepared respectively the matrix hybrid standard working solution of organophosphorus pesticide and the matrix hybrid standard working solution of pyrethroid pesticide as solvent, wherein, described organophosphorus pesticide refers to DDVP, Rogor, chlopyrifos, parathion-methyl, malathion, fenifrothion, Hostathion, and described pyrethroid pesticide refers to Fenpropathrin, gamma cyhalothrin, Permethrin, cyfloxylate, cypermethrin, fenvalerate, decis; In the matrix hybrid standard working solution of described organophosphorus pesticide, in the concentration range of each organophosphorus pesticide and the matrix hybrid standard working solution of described pyrethroid pesticide, the concentration range of each pyrethroid pesticide is:

The 3rd step, chromatographic peak retention time and chromatographic peak area with each pesticide composition in the matrix hybrid standard working solution of organophosphorus pesticide described in gas chromatography determination and the matrix hybrid standard working solution of pyrethroid pesticide, qualitative with chromatographic peak retention time, then take mass concentration as horizontal ordinate, the chromatographic peak area of take is drawn out the typical curve of organophosphorus pesticide and pyrethroid pesticide as ordinate;

Wherein, the chromatographic condition of mensuration organophosphorus pesticide is:

Chromatographic column: the capillary chromatographic column that model is DB-1701, specification is 30m * 0.32mm * 0.25 μ m (being length * particle diameter * thickness of liquid film); Sample size: 1.0 μ L, Splitless injecting samples; Injector temperature: 220 ℃, dottle pin purges 3mL/min; Column temperature: 90 ℃ of initial temperatures, keep 1min, 20 ℃/min rises to 200 ℃, keeps 9min, and 30 ℃/min rises to 245 ℃, keeps 8min; Carrier gas: high pure nitrogen, purity >=99.999%; Constant current mode, flow velocity 3mL/min; Detecting device: flame photometric detector (FPD); Detector temperature: 245 ℃; Hydrogen: flow is 75mL/min; Air: flow is 100mL/min; Make-up gas: high pure nitrogen, flow is 60mL/min;

The chromatographic condition of measuring pyrethroid pesticide is:

Chromatographic column: the capillary chromatographic column that model is HP-5, specification is 30m * 0.32mm * 0.25 μ m; Sample size: 1.0 μ L, Splitless injecting samples; Injector temperature: 220 ℃, dottle pin purges 3mL/min; Column temperature: 80 ℃ of initial temperatures, keep 0.3min, 30 ℃/min rises to 180 ℃, keeps 5min, and 20 ℃/min rises to 260 ℃, keeps 23min: carrier gas: high pure nitrogen, purity >=99.999%; Constant current mode, flow velocity 1mL/min; Detecting device: micro-pond electron capture detector; Detector temperature: 300 ℃; Make-up gas: high pure nitrogen, 60mL/min;

Second portion, measures 7 kinds of organophosphorus pesticides and 7 kinds of pyrethroid pesticide residual quantities in first described in the fresh leaf sample of tea, and analytical approach comprises the following steps:

The first step, extracts the fresh leaf sample of tea;

Take the fresh leaf sample of the tea of having pulverized 5.0g, be placed in 50mL teflon centrifuge tube, add 10mL to contain the acetonitrile solution of 1% acetic acid, mix, ultrasonic extraction 10min, ultrasonic power is between 80W～100W, ultrasonic temperature, at 20～30 ℃, adds 2g anhydrous sodium acetate and 1g anhydrous magnesium sulfate, vortex 2min, with the centrifugal 4min of 9000r/min rotating speed, get supernatant and be the fresh leaf sample extracting solution of tea to be clean;

Second step, purifies the fresh leaf sample extracting solution of described tea to be clean;

Separately get a 10mL teflon centrifuge tube, add 0.15g C18,0.15g PSA, 0.12gGCB and 0.3g anhydrous magnesium sulfate, add the above-mentioned extract to be clean of 4mL, vortex 2min, with the centrifugal 5min of 9000r/min rotating speed; After centrifugal, pipette in 2 portions of supernatants to 2 scale test tube, every portion of supernatant is 1.5mL, under 50～60 ℃ of water-baths, every portion of supernatant is slowly blown to 50～70 μ L with nitrogen; In a supernatant, add acetone to be settled to 0.75mL therein again, cross after organic system filter membrane, obtain for measuring the fresh leaf sample extraction of the tea scavenging solution of organophosphorus pesticide, in another portion of supernatant, add normal hexane to be settled to 0.75mL, cross after 0.22 μ m organic system filter membrane, obtain for measuring the fresh leaf sample extraction of the residual tea of pyrethroid pesticide scavenging solution;

The 3rd step, residual with organophosphorus pesticide and pyrethroid pesticide in the fresh leaf sample extraction of tea described in gas chromatography determination scavenging solution, record chromatographic peak retention time and chromatographic peak area, after qualitative by chromatographic peak retention time, the organophosphorus pesticide that the detected chromatographic peak area of the fresh leaf sample extraction of described tea scavenging solution and described first are obtained and the typical curve of pyrethroid pesticide compare, the every kind of organophosphorus pesticide that obtains containing in the fresh leaf sample extraction of described tea scavenging solution and the measured value of pyrethroid pesticide; Again described measured value is brought in quantitative computing formula, finally obtains organophosphorus pesticide residual quantity to be measured and pyrethroid pesticide residual quantity in the fresh leaf sample of tea;

Quantitative computing formula: ω=(ρ * v * f)/m, in formula: ω is organophosphorus pesticide residual quantity to be measured or pyrethroid pesticide residual quantity to be measured in sample, and unit is mg/kg; ρ is measured value, and unit is mg/L; M is the sample size taking, and unit is g; V is constant volume, and unit is mL; F is extension rate;

Wherein, measure the chromatographic condition of organophosphorus pesticide in the fresh leaf sample extraction of described tea scavenging solution and the organophosphorus pesticide in the chromatographic condition of pyrethroid pesticide and the 3rd step of described first and pyrethroid pesticide identical.

In above embodiment, instrument and equipment used has: 7890A gas chromatograph, be furnished with flame photometric detector (FPD) (FPD), the micro-pond of 63Ni electron capture detector (μ ECD), 7693 automatic samplers and Chemstation chromatographic work station (U.S. Agilent company); KQ-500DE numerical control supersonic instrument (Kunshan Ultrasonic Instruments Co., Ltd.); TG16-WS table model high speed centrifuge (Hunan Xiang Yi Laboratory Instruments development corporation, Ltd.); HSC-24B Nitrogen evaporator (Tianjin Hengao Technology Development Co., Ltd.); K600 type comminutor (German Bo Lang company); VM-10 vortex oscillator (Korea S Daihan Scientific company); SX2-4-10 muffle furnace (Shanghai leap Medical Devices Co., Ltd.); EXCEED-AD-24 type ultrapure water machine (Chengdu Tangshi Kangning Science and Technology Development Co., Ltd).

Medicine used and reagent: DDVP, Rogor, chlopyrifos, parathion-methyl, malathion, fenifrothion, Hostathion, Fenpropathrin, gamma cyhalothrin, Permethrin, cyfloxylate, cypermethrin, fenvalerate, decis, mass concentration is 1000mg/L, is purchased from Inst. of Environment Protection & Scientific Research Monitor, Ministry of Agric; Normal hexane, HPLC level (Sweden Oceanpak company); Acetone, HPLC level (Shanghai Chemical Reagent Co., Ltd., Sinopharm Group); N-propyl group ethylenediamine (PSA), 40～60 μ m (U.S. Agela Technologies company); Ketjenblack EC (GCB), 120～400mesh (U.S. Agela Technologies company); C18, aperture 6nm, granularity 40～60 μ m (U.S. Sepax Technologies company); Acetonitrile, acetic acid, anhydrous sodium acetate, anhydrous magnesium sulfate (620 ℃ of calcination 4h) are analyzes pure (Shanghai Chemical Reagent Co., Ltd., Sinopharm Group); Experimental water is ultrapure water (18.4M Ω).

The preparation of hybrid standard storing solution:

The compound method of organophosphorus pesticide hybrid standard storing solution is: 7 kinds of organophosphorus pesticide standard reserving solution concentration are 1000mg/L, get respectively 1mL and be placed in 5mL volumetric flask, use acetone diluted constant volume, being mixed with concentration is single mark solution of 200mg/L, in-20 ℃ of lucifuge sealings, preserves.Response according to each agricultural chemicals on FPD detecting device, single mark solution DDVP is got 0.5mL, and Rogor, Hostathion are respectively got 2mL, and all the other organophosphorus list mark solution are respectively got 1mL, are placed in 10mL volumetric flask, use acetone constant volume.In 7 kinds of organophosphorus pesticide hybrid standard storing solutions: DDVP concentration is 10mg/L, chlopyrifos, parathion-methyl, fenifrothion, malathion concentration are respectively 20mg/L, and Rogor, Hostathion concentration are respectively 40mg/L;

The compound method of pyrethroid pesticide hybrid standard storing solution is: 7 kinds of pyrethroid pesticide standard reserving solution concentration are 1000mg/L, get respectively 1mL and be placed in 5mL volumetric flask, with normal hexane, dilute constant volume, being mixed with concentration is single mark solution of 200mg/L, in-20 ℃ of lucifuge sealings, preserves.Response according to each agricultural chemicals on μ ECD detecting device, single mark solution gamma cyhalothrin is got 0.1mL, and Fenpropathrin, cyfloxylate are respectively got 0.25mL, and all the other pyrethroid pesticide list mark solution are respectively got 0.5mL, be placed in 10mL volumetric flask, use normal hexane constant volume.In 7 kinds of pyrethroid pesticide hybrid standard storing solutions: gamma cyhalothrin concentration is 2mg/L, Fenpropathrin, cyfloxylate concentration are respectively 5mg/L, and Permethrin, cypermethrin, fenvalerate, decis concentration are respectively 10mg/L.

Above-mentioned agricultural chemicals hybrid standard storing solution is all placed in 4 ℃ of refrigerators and preserves, and during use, with blank matrix extract, is the matrix hybrid standard working fluid that solvent is mixed with respectively debita spissitudo.

The test findings of the present embodiment:

1, the gas chromatography of test agricultural chemicals is separated

Adopt above-mentioned GC conditions to measure the matrix hybrid standard working solution of 7 kinds of organophosphorus pesticides and the matrix hybrid standard working solution of 7 kinds of pyrethroid pesticides, standard specimen separating effect is better, and peak shape is symmetrical, and baseline stability illustrates that instrument condition is applicable to.Under this chromatographic condition, the retention time of each agricultural chemicals of organophosphorus is about respectively DDVP 5.941min, Rogor 13.099min, chlopyrifos 15.787min, parathion-methyl 15.915min, malathion 16.479min, fenifrothion 16.607min, Hostathion 22.684min is (shown in accompanying drawing 1, in accompanying drawing 1, label 1 is DDVP, concentration is 0.25mg/L, label 2 is Rogor, concentration is 1mg/L, label 3 is chlopyrifos, concentration is 0.5mg/L, label 4 is parathion-methyl, concentration is 0.5mg/L, label 5 is malathion, concentration is 0.5mg/L, label 6 is fenifrothion, concentration is 0.5mg/L, label 7 is Hostathion, concentration is 1mg/L), each agricultural chemicals retention time of pyrethroid is about respectively Fenpropathrin 16.497min, gamma cyhalothrin 17.865min, Permethrin 19.400min, 19.693min, cyfloxylate 21.499min, cypermethrin 21.834min, 22.130min, 22.501min, fenvalerate 25.183min, 26.086min, (shown in accompanying drawing 2, in accompanying drawing 2, label 1 is Fenpropathrin to decis 28.760min, and concentration is 0.1mg/L, label 2 is gamma cyhalothrin, and concentration is 0.04mg/L, and label 3 is Permethrin, concentration is 0.2mg/L, and label 4 is cyfloxylate, and concentration is 0.1mg/L, label 5 is cypermethrin, concentration is 0.2mg/L, and label 6 is fenvalerate, and concentration is 0.2mg/L, label 7 is decis, and concentration is 0.2mg/L).

2, matrix effect

Matrix effect refers to the impact of the matrix components of other except determinand on determinand measured value in sample.Matrix effect is for the situation of different samples and determinand and difference.In gas chromatographic analysis, most of agricultural chemicals show matrix enhancement effect in various degree, be the agricultural chemicals of the same concentrations response in matrix than it height in neat solvent, the existence of being commonly considered as sample mesostroma composition has reduced the chance of chromatographic system avtive spot and determinand molecular action, and determinand detection signal is strengthened.The method of eliminating matrix effect impact has matrix matching standard solution method, standard addition method, multiple purifying method, analysis protectant application and statistical method correction etc.In the present invention, adopt the ratio of the response of determinand in matrix hybrid standard working solution and neat solvent mixed standard solution to represent matrix effect, ratio more approaches 1, shows that matrix effect is less.

Test findings shows, all there is matrix enhancement effect in various degree in 14 kinds of agricultural chemical compounds analyzing, wherein the matrix enhancement effect of Fenpropathrin, Permethrin, decis is not obvious, and the matrix effect of other 11 kinds of agricultural chemicals such as DDVP, Rogor is stronger, as shown in Figure 3.So the present invention, when quantitative by external standard method, is solvent preparation standard specimen with blank matrix extract, to eliminate matrix interference, reduces error.(in accompanying drawing 3, label 1 represents the matrix hybrid standard working solution and the neat solvent mixed standard solution that contain DDVP, and concentration is 0.05mg/L; Matrix hybrid standard working solution and the neat solvent mixed standard solution of label 2 for containing Rogor, concentration is 0.2mg/L; In like manner, label 3 represents to contain chlopyrifos, and concentration is 0.1mg/L; Label 4 represents to contain parathion-methyl, and concentration is 0.1mg/L; Label 5 represents to contain malathion, and concentration is 0.1mg/L; Label 6 is fenifrothion, and concentration is 0.1mg/L; Label 7 is Hostathion, and concentration is 0.2mg/L; Label 8 is Fenpropathrin, and concentration is 0.1mg/kg; Label 9 is gamma cyhalothrin, and concentration is 0.04mg/kg, and label 10 is Permethrin, and concentration is 0.2mg/kg; Label 11 is cyfloxylate, and concentration is 0.1mg/kg; Label 12 is cypermethrin, and concentration is 0.2mg/kg; Label 13 is fenvalerate, and concentration is 0.2mg/kg; Label 14 is decis, and concentration is 0.2mg/kg; A _mthe response that represents each agricultural chemicals in matrix matching mixed standard solution; A _sthe response that represents each agricultural chemicals in neat solvent mixed standard solution).

3, the range of linearity of method, regression equation and detection limit

7 kinds of pyrethroid pesticide matrix mixed standard solutions of preparation mass concentration be 0.01～4.0mg/L 7 kinds of organophosphorus pesticide matrix mixed standard solutions and 0.004～2.0mg/L, by the organophosphorus pesticide in the 3rd step of described first and the chromatographic condition of pyrethroid pesticide, measure respectively, with mass concentration, (with ρ, represent, unit is mg/L) be horizontal ordinate, take peak area (y) as ordinate drawing standard curve, 14 kinds of agricultural chemicals are good in its concentration range internal linear, related coefficient (r ²) be all greater than 0.996, be shown in Table 1.Respectively with 3 times of noise signal in minimum interpolation horizontal chromatography figure and 10 times of detection limit (LOD) and quantitative limit (LOQ) of calculating each agricultural chemicals.As calculated, the LOD of 7 kinds of organophosphorus pesticides is between 0.0034～0.014mg/kg, and LOQ is between 0.012～0.046mg/kg; The LOD of 7 kinds of pyrethroid pesticides is between 0.0017～0.013mg/kg, and LOQ is between 0.0056～0.043mg/kg.

Table 1 is for the range of linearity, regression equation, related coefficient, detection limit and the quantitative limit of examination agricultural chemicals

4, the recovery of method and precision

Adopt blank sample mark-on method to carry out the method recovery and precision mensuration.Take 5.0g after measured not containing some parts of the fresh leaf sample of blank tea for examination agricultural chemicals, the agricultural chemicals hybrid standard working fluid that adds respectively 3 kinds of variable concentrations levels, the interpolation level of organophosphorus pesticide is 0.025～1.0mg/kg, the interpolation level of pyrethroid pesticide is 0.01～0.5mg/kg, parallel 3 duplicate samples of each concentration level, after vortex mixes, standing 1h makes standard solution fully be absorbed by sample, according to described second portion, carries out sample pre-treatments and chromatographic condition mensuration.Adopt matrix external standard method quantitative, calculate average recovery rate and the relative standard deviation (being RSD) thereof of each agricultural chemicals, ginseng is shown in Table 2, and sample mark-on chromatogram is referring to accompanying drawing 4 and accompanying drawing 5.

As shown in Table 2, in the fresh leaf of tea, the average recovery rate of organophosphorus pesticide is that 76.9%～97.3%, RSD (n=3) is 1.8%～8.0%; The average recovery rate of pyrethroid pesticide is that 78.3%～100.2%, RSD (n=3) is 1.3%～9.9%, and illustration method has good accuracy and repeatability.

Result (n=3) is reclaimed in the interpolation of 14 kinds of confession examination agricultural chemicals of table 2 in the fresh leaf of tea

Wherein, in accompanying drawing 4, label 1 is DDVP, and concentration is 0.25mg/L, label 2 is Rogor, and concentration is 1mg/L, and label 3 is chlopyrifos, concentration is 0.5mg/L, and label 4 is parathion-methyl, and concentration is 0.5mg/L, label 5 is malathion, concentration is 0.5mg/L, and label 6 is fenifrothion, and concentration is 0.5mg/L, label 7 is Hostathion, and concentration is 1mg/L; In accompanying drawing 5, label 1 is Fenpropathrin, and concentration is 0.1mg/L, and label 2 is gamma cyhalothrin, concentration is 0.04mg/L, and label 3 is Permethrin, and concentration is 0.2mg/L, label 4 is cyfloxylate, concentration is 0.1mg/L, and label 5 is cypermethrin, and concentration is 0.2mg/L, label 6 is fenvalerate, concentration is 0.2mg/L, and label 7 is decis, and concentration is 0.2mg/L.

5, actual sample analysis

Adopt this method to the fresh leaf sample of tea of taking from local certain tea plantation in Suzhou totally 16 parts carried out 14 kinds of Detecting Pesticide, wherein 1 part detects effective cypermethrin and cypermethrin, content is respectively 0.248mg/kg and 0.0607mg/kg; 1 part detects gamma cyhalothrin, and content is 0.0235mg/kg; 1 part detects decis, and content is 0.0431mg/kg.Result of study shows, this method can be used for the detection of 14 kinds of residues of pesticides in the fresh leaf of tea.

Above-described embodiment is only explanation technical conceive of the present invention and feature, and its object is to allow person skilled in the art can understand content of the present invention and implement according to this, can not limit the scope of the invention with this.All equivalences that Spirit Essence is done according to the present invention change or modify, within all should being encompassed in protection scope of the present invention.

Claims (2)

1. measure organic phosphates and a pyrethroid pesticide remained quantitative analysis method in the fresh leaf of tea simultaneously, it is characterized in that: described analytical approach is comprised of two parts:

First, sets up respectively the tested organophosphorus pesticide of known gradient concentration and the typical curve of pyrethroid pesticide by vapor-phase chromatography; The foundation of described typical curve is comprised of following steps:

The first step, prepares blank matrix extract, and preparation method is comprised of following steps:

(1) take 5.0 g after measured not containing tested organophosphorus pesticide and the fresh leaf sample of blank tea of pyrethroid pesticide, be placed in 50 mL centrifuge tubes, to adding 10 mL in centrifuge tube, containing volume fraction, be the acetonitrile solution of 1% acetic acid again, mix, ultrasonic extraction 10～15 min, then add 2 g anhydrous sodium acetates and 1 g anhydrous magnesium sulfate, vortex 1.5min ~ 2.5min, then, with the centrifugal 3.5min ~ 4.5min of rotating speed of 9000 r/min, get supernatant and be blank matrix extract to be clean;

(2) separately get 10 mL centrifuge tubes, add 0.15g C18,0.15g N-propyl group ethylenediamine, 0.12 g ketjenblack EC and 0.3g anhydrous magnesium sulfate, add blank matrix extract to be clean described in 4mL, vortex 1.5min ~ 2.5min, with the centrifugal 4.5min ~ 5.5min of rotating speed of 9000 r/min; After centrifugal, pipette in 2 portions of supernatants to 2 scale test tube, every portion of supernatant is 1.5 mL, then under 50～60 ℃ of water-baths, every portion of supernatant is slowly blown to 50 ~ 70 μ L with nitrogen; In a supernatant, add acetone to be settled to 0. 75 mL therein again, cross after organic system filter membrane, obtain for preparing the blank matrix extract of organophosphorus pesticide, in another portion of supernatant, add normal hexane to be settled to 0. 75 mL, cross after organic system filter membrane, obtain the blank matrix extract of pyrethroid pesticide;

Second step, the blank matrix extract that obtains in the described first step of take is prepared respectively the matrix hybrid standard working solution of organophosphorus pesticide and the matrix hybrid standard working solution of pyrethroid pesticide as solvent, wherein, described organophosphorus pesticide refers to DDVP, Rogor, chlopyrifos, parathion-methyl, malathion, fenifrothion, Hostathion, and described pyrethroid pesticide refers to Fenpropathrin, gamma cyhalothrin, Permethrin, cyfloxylate, cypermethrin, fenvalerate, decis; In the matrix hybrid standard working solution of described organophosphorus pesticide, in the concentration range of each organophosphorus pesticide and the matrix hybrid standard working solution of described pyrethroid pesticide, the concentration range of each pyrethroid pesticide is:

The 3rd step, chromatographic peak retention time and chromatographic peak area with each pesticide composition in the matrix hybrid standard working solution of organophosphorus pesticide described in gas chromatography determination and the matrix hybrid standard working solution of pyrethroid pesticide, qualitative with chromatographic peak retention time, then take mass concentration as horizontal ordinate, the chromatographic peak area of take is drawn out the typical curve of organophosphorus pesticide and pyrethroid pesticide as ordinate;

Wherein, the chromatographic condition of mensuration organophosphorus pesticide is:

Chromatographic column: the capillary chromatographic column that model is DB-1701, specification is 30m * 0.32mm * 0.25 μ m; Sample size: 1.0 μ L, Splitless injecting samples; Injector temperature: 220 ℃, dottle pin purges 3mL/min; Column temperature: 90 ℃ of initial temperatures, keep 1min, 20 ℃/min rises to 200 ℃, keeps 9min, and 30 ℃/min rises to 245 ℃, keeps 8min; Carrier gas: high pure nitrogen, purity >=99.999%; Constant current mode, flow velocity 3mL/min; Detecting device: flame photometric detector (FPD); Detector temperature: 245 ℃; Hydrogen: flow is 75 mL/min; Air: flow is 100 mL/min; Make-up gas: high pure nitrogen, flow is 60mL/min;

The chromatographic condition of measuring pyrethroid pesticide is:

Chromatographic column: the capillary chromatographic column that model is HP-5, specification is 30m * 0.32mm * 0.25 μ m; Sample size: 1.0 μ L, Splitless injecting samples; Injector temperature: 220 ℃, dottle pin purges 3mL/min; Column temperature: 80 ℃ of initial temperatures, keep 0.3min, 30 ℃/min rises to 180 ℃, keeps 5min, and 20 ℃/min rises to 260 ℃, keeps 23min: carrier gas: high pure nitrogen, purity >=99.999%; Constant current mode, flow velocity 1mL/min; Detecting device: micro-pond electron capture detector; Detector temperature: 300 ℃; Make-up gas: high pure nitrogen, 60mL/min;

Second portion, measures 7 kinds of organophosphorus pesticides and 7 kinds of pyrethroid pesticide residual quantities in first described in the fresh leaf sample of tea, and analytical approach comprises the following steps:

The first step, extracts the fresh leaf sample of tea;

Take the fresh leaf sample of the tea of having pulverized, be placed in 50 mL centrifuge tubes, add containing volume fraction is the acetonitrile solution of 1% acetic acid again, wherein, the input ratio of the fresh leaf sample of described tea and described acetonitrile solution for to drop into 1mL acetonitrile solution in the fresh leaf sample of every 0.5g tea, mix ultrasonic extraction 10～15 min; Add again anhydrous sodium acetate and anhydrous magnesium sulfate, wherein, the fresh leaf sample of described tea, anhydrous sodium acetate and anhydrous magnesium sulfate three's mass ratio is 5:2:1, vortex 1.5min ~ 2.5min, with the centrifugal 3.5min ~ 4.5min of rotating speed of 9000 r/min, get supernatant and be the fresh leaf sample extracting solution of tea to be clean;

Second step, purifies the fresh leaf sample extracting solution of described tea to be clean;

Separately get 10 mL centrifuge tubes, add C18, N-propyl group ethylenediamine, ketjenblack EC and anhydrous magnesium sulfate, add the fresh leaf sample extracting solution of described tea to be clean, wherein, the content of C18, N-propyl group ethylenediamine, ketjenblack EC and the anhydrous magnesium sulfate dropping in the fresh leaf sample extracting solution of tea to be clean is respectively 37.5mg/mL, 37.5mg/mL, 30 mg/mL and 75mg/mL, vortex 1.5min ~ 2.5min, with the centrifugal 4.5min ~ 5.5min of rotating speed of 9000 r/min; After centrifugal, pipette in 2 portions of supernatants to 2 scale test tube, every portion of supernatant is 1.5 mL, under 50～60 ℃ of water-baths, every portion of supernatant is slowly blown to 50 ~ 70 μ L with nitrogen; In a supernatant, add acetone to be settled to 0. 75 mL therein again, cross after organic system filter membrane, obtain for measuring the fresh leaf sample extraction of the tea scavenging solution of organophosphorus pesticide, in another portion of supernatant, add normal hexane to be settled to 0. 75 mL, cross after organic system filter membrane, obtain for measuring the fresh leaf sample extraction of the residual tea of pyrethroid pesticide scavenging solution;

The 3rd step, residual with organophosphorus pesticide and pyrethroid pesticide in the fresh leaf sample extraction of tea described in gas chromatography determination scavenging solution, record chromatographic peak retention time and chromatographic peak area, after qualitative by chromatographic peak retention time, the organophosphorus pesticide that the detected chromatographic peak area of the fresh leaf sample extraction of described tea scavenging solution and described first are obtained and the typical curve of pyrethroid pesticide compare, the every kind of organophosphorus pesticide that obtains containing in the fresh leaf sample extraction of described tea scavenging solution and the measured value of pyrethroid pesticide; Again described measured value is brought in quantitative computing formula, finally obtains organophosphorus pesticide residual quantity to be measured and pyrethroid pesticide residual quantity in the fresh leaf sample of tea;

Quantitative computing formula: ω=(ρ * v * f)/m, in formula: ω is organophosphorus pesticide residual quantity to be measured or pyrethroid pesticide residual quantity to be measured in sample, and unit is mg/kg; ρ is measured value, and unit is mg/L; M is the sample size taking, and unit is g; V is constant volume, and unit is mL; F is extension rate;

Wherein, measure the chromatographic condition of organophosphorus pesticide in the fresh leaf sample extraction of described tea scavenging solution and the organophosphorus pesticide in the chromatographic condition of pyrethroid pesticide and the 3rd step of described first and pyrethroid pesticide identical.

2. according to claim 1ly measure organic phosphates and pyrethroid pesticide remained quantitative analysis method in the fresh leaf of tea simultaneously, it is characterized in that: in the first step of described first and the first step of described second portion the condition of ultrasonic extraction be ultrasonic power between 80W ~ 100W, ultrasonic temperature is at 20～30 ℃.