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加拿大土壤标准

Soil, Ground Water and Sediment Standards for Use Under Part XV.1 of the Environmental Protection Act

Ministry of the Environment

April 15, 2011

PIBS # 7382e01

TABLE OF CONTENTS

TABLE OF CONTENTS (ii)

INTRODUCTION (iii)

HOW TO READ THESE TABLES (iii)

Tables 1 to 5 (iii)

Notes on Table 1..................... .. (iv)

Notes on Table 6, 7, 8, &9 (iv)

Table 1: Full Depth Background Site Condition Standards (1)

Table 2: Full Depth Generic Site Condition Standards in a Potable Ground Water Condition (4)

Table 3: Full Depth Generic Site Condition Standards in a Non-Potable Ground Water Condition (7)

Table 4: Stratified Site Condition Standards in a Potable Ground Water Condition (10)

Table 5: Stratified Site Condition Standards in a Non-Potable Ground Water Condition (13)

Table 6 Generic Site Condition Standards for Shallow Soils in a Potable Ground Water Condition (16)

Table 7: Generic Site Condition Standards for Shallow Soils in a Non-Potable Ground Water Condition (19)

Table 8: Generic Site Condition Standards for Use within 30 m of a Water Body in a Potable Groundwater Condition (22)

Table 9: Generic Site Condition Standards for Use within 30 m of a Water Body in a Non-Potable

Groundwater Condition (25)

INTRODUCTION

This document, consisting of Tables 1 to 9, sets out the prescribed contaminants and the applicable site condition standards for those contaminants for the purposes of Part XV.1 of the Environmental Protection Act. The Tables can be summarized as follows:

Table 1: Full Depth Background Site Condition Standards

Table 2: Full Depth Generic Site Condition Standards in a Potable Ground Water

Condition.

Table 3: Full Depth Generic Site Condition Standards in a Non-Potable Ground Water Condition.

Table 4: Stratified Site Condition Standards in a Potable Ground Water Condition.

Table 5: Stratified Site Condition Standards in a Non-Potable Ground Water Condition. Table 6: Generic Site Condition Standards for Shallow Soils in a Potable Ground Water Condition

Table 7: Generic Site Condition Standards for Shallow Soils in a Non-Potable Ground Water Condition

Table 8 Generic Site Condition Standards for Use within 30 m of a Water Body in a Potable Groundwater Condition

Table 9 Generic Site Condition Standards for Use within 30 m of a Water Body in a Non-Potable Groundwater Condition

HOW TO READ THESE TABLES

Tables 1 to 9 set out prescribed contaminants by listing contaminants in the column of rows that has the heading row entitled “Contaminant”. Tables 1 to 9 set out prescribed standards for these contaminants by indicating in the appropriate locations the maximum concentrations of the contaminants in soil, ground water and sediment, which are expressed in a number that is to be read as μg/g dry weight for soil and sediment, and as μg/L for ground water, unless otherwise indicated in the table. Within Tables 2 – 7 separate values for each of the two soil texture groups are listed. The value for coarse soils is the one that is not bracketed, whereas the value for medium and fine textured soils is given within brackets. Where there are no bracketed values, the value applies to both soil groups.

The standard for a property that is applicable for a type of property use in a particular medium, can be found in the row named for the contaminant and in the column that has the heading row that indicates the applicable medium and the type of property use for which the record of site condition is filed.

A contaminant that is listed and for which the abbreviation “N/V” appears in the cell, instead of a number representing a maximum concentration, is a contaminant for which a standard is not prescribed. The abbreviation “N/V” means “no value”.

A contaminant that is listed and for which the abbreviation “N/A” appears in the cell, instead of a number representing a maximum concentration, is a contaminant for which a standard is not prescribed because no standard is required. The abbreviation “N/A” means “not applicable”.

Notes on Table 1

Table 1 sets out the “Full Depth Background Site Condition Standards”. The soil standards in Table 1 are background values derived from the Ontario Typical Range values for

the land uses indicated and are considered representative of upper limits of typical province-wide background concentrations in soils that are not contaminated by point sources.

The groundwater standards in Table 1 were derived from the Provincial Groundwater Monitoring Information System (PGMIS) from 20002 to 2007 and from groundwater well surveillance data (DWSP) from 1997 -2002. For parameters where sufficient data was not available values have been derived from the most recent effects-based water criteria including Provincial Water Quality Objectives and the Ontario Drinking Water Quality Standards as upper limits and Method Detection Limit as a lower limit. These values are considered to be generally achievable in site situations typical of background while providing a level of human health and ecosystem protection consistent with background conditions and protective of sensitive ecosystems.

The sediment standards in Table 1 are the same standards (adverse effects-based) developed for the Table 8 and 9 for properties within 30 m of a water body. These values are within the range of measured background sediment where data is available in the 1993 Sediment Guidelines and are considered to provide a level of human health and ecosystem protection consistent with background and protective of sensitive ecosystems.

Notes on Table 6, 7, 8, and 9

Tables 6 and 7 are to be used in situations where there is less than 2 m of overburden above bedrock. They can also be used in situations where the QP is not satisfied that Tables 2 and 3 are suitable due to shallow depth to groundwater. Tables 6 and 7 were derived on the same basis as Tables 2 and 3 except that the calculation for dilution occurring in the aquifer is removed, and biodegradation between the groundwater and the basement is assumed to not be occurring.

Tables 8 and 9 are to be used where all or part of a property lies within 30 m of a surface water body. These standards were derived with the objective of protecting surface water bodies from movement of soil directly into surface water to become sediment, and assuming that there is no dilution in the groundwater for the aquatic protection pathway.

Additional notes

1)For all tables, the methyl naphthalene soil standard is applicable to both 1-methyl

naphthalene and 2 –methyl naphthalene, with the provision that if both are detected the

sum of the two concentrations cannot exceed the standard.

2)There are two boron parameters in the tables, one for a hot water extract (HWS) that is

designed for protection of plants and soil invertebrates, and one for a total (mixed strong acid digest). The HWS boron can be used by itself for all surface soils, as plants are the

most sensitive receptor for boron. For subsurface soils the total boron standard can be

used by itself, since plant protection for soils below the root zone is not a significant

concern.

3)Conditions can exist at a site for which the assumptions used to develop the generic

criteria may not be valid. The QP must ascertain that the site conditions are appropriate for use of the generic standards such that he/she can be comfortable with signing the

certifications on the RSC. To assist the QP in recognizing the types of conditions that

may be important in this respect the following examples are given:

a) if the contaminated zone has a volume larger than 340m3 or a source length or width

greater than 13 metres then all pathways which employ source depletion or groundwater

transport (Soil to Nose, S-GW1, S-IA, S-GW3, GW2 and GW3 components of the standards) may be affected.

b) if a high permeability zone is present in the vadose zone which provides a direct preferential pathway to the building then the soil properties assumed in the generic J&E modelling to determine the S-IA and GW2 components of the standard may change.

c) if the annual average of the capillary fringe of the water table is < 0.8 metres from the outer edge of the gravel crush of the building foundation, then the 10 x biodegradation factor assumed in the GW2 pathway may be non-conservative.

d) if the average Organic Carbon content (foc) of soil above the water table is < 0.002 then more contaminant may be in the water and gas phases than assumed in the generic standards.

f) if there is a continuous source of the contaminant then the pathways which assume a depleting source (i.e., S-IA, S-GW1, and Soil to Nose) might be non-conservative.

g) if there is a surface water body that could be affected by the property from contaminant migration via groundwater, and the surface water has total hardness less than 70 mg/L (as CaCO3) and/or has pH less than 6.7, the aquatic protection values for some metals and pentachlorophenol may be non-conservative. In such cases, the QP may need to consider whether a site-specific estimate of hardness and pH resulting from mixing of groundwater and surface water is needed to estimate an appropriate aquatic protection value for this site.

The existence of any of the above conditions does not necessarily indicate that the generic criteria are not valid for a given site. There are many interrelated parameters and factors that were used in the development of the generic standards, and in many cases one factor, such as any of those above, can be outweighed by differences in other factors in a manner that, overall, there is sufficient natural protection provided by the site. In addition, it must also be considered that the component that drives the standard may not be affected by the particular limiting condition described above (e.g. a terrestrial ecological driver, but there are high permeable zones in the vadose zone). The QP should consider these types of factors in assessing the appropriateness of the use of the generic standards.

TABLE 1: Full Depth Background Site Condition Standards

Table 1

Ground Water

Sediment

μg/g

(μg/L)

(μg/g)

Contaminant

Agricultural or Other All Types of All Types of Property Use Property Uses

Property Uses

Acenaphthene 0.050.072 4.1NV Acenaphthylene 0.0930.0931NV Acetone 0.50.52700NV Aldrin 0.050.050.010.002 Anthracene 0.050.160.10.22 Antimony 1 1.3 1.5NV Arsenic 1118136 Barium 210220610NV Benzene

0.020.020.5NV Benz[a]anthracene 0.0950.360.20.32 Benzo[a]pyrene

0.050.30.010.37 Benzo[b]fluoranthene 0.30.470.1NV Benzo[ghi]perylene 0.20.680.20.17 Benzo[k]fluoranthene 0.050.480.10.24 Beryllium 2.5 2.50.5NV Biphenyl 1,1'-

0.050.050.5NV Bis(2-chloroethyl)ether 0.50.55NV Bis(2-chloroisopropyl)ether 0.50.5120NV Bis(2-ethylhexyl)phthalate 5510NV Boron (Hot Water Soluble)*NA NA NA NA Boron (total)

36361700

NV Bromodichloromethane 0.050.052NV Bromoform 0.050.055NV Bromomethane 0.050.050.89NV Cadmium

1 1.20.50.6 Carbon Tetrachloride 0.050.050.2NV Chlordane

0.050.050.060.007 Chloroaniline p- 0.50.510NV Chlorobenzene 0.050.050.5NV Chloroform

0.050.052NV Chlorophenol, 2- 0.10.18.9NV Chromium Total 67701126 Chromium VI 0.660.6625NV Chrysene 0.18 2.80.10.34 Cobalt 1921 3.850 Copper

6292516 Cyanide (CN-)

0.0510.05150.1 Dibenz[a h]anthracene 0.10.10.20.06 Dibromochloromethane 0.050.052NV Dichlorobenzene, 1,2- 0.050.050.5NV Dichlorobenzene, 1,3- 0.050.050.5NV Dichlorobenzene, 1,4- 0.050.050.5NV Dichlorobenzidine, 3,3'- 110.5NV Dichlorodifluoromethane 0.050.05590NV DDD 0.050.05 1.80.008 DDE 0.050.05100.005 DDT

0.078 1.40.050.007 Dichloroethane, 1,1- 0.050.050.5NV Dichloroethane, 1,2- 0.050.050.5NV Dichloroethylene, 1,1- 0.050.050.5NV Dichloroethylene, 1,2-cis- 0.050.05 1.6NV Dichloroethylene, 1,2-trans- 0.050.05 1.6NV Dichlorophenol, 2,4- 0.10.120NV Dichloropropane, 1,2- 0.050.050.5NV Dichloropropene,1,3- 0.050.050.5NV Soil (other than sediment)

Residential/

Parkland/Institutional/

Industrial/Commercial/

Community Property

Use

Contaminant

Agricultural or Other All Types of All Types of Property Use Property Uses

Property Uses

Parkland/Institutional/

Industrial/Commercial/

Community Property

Use

Diethyl Phthalate 0.50.530NV Dimethylphthalate 0.50.530NV Dimethylphenol, 2,4- 0.20.210NV Dinitrophenol, 2,4-

2210NV Dinitrotoluene, 2,4 & 2,6- 0.50.55NV Dioxane, 1,4

0.20.250NV Dioxin/Furan (TEQ)0.000007

0.000007

0.000015

NV Endosulfan 0.040.040.05NV Endrin

0.040.040.050.003 Ethylbenzene

0.050.050.5NV Ethylene dibromide 0.050.050.2NV Fluoranthene 0.240.560.40.75 Fluorene 0.050.121200.19 Heptachlor

0.050.050.01NV Heptachlor Epoxide 0.050.050.010.005 Hexachlorobenzene 0.010.010.010.02 Hexachlorobutadiene

0.010.010.01NV Hexachlorocyclohexane Gamma- 0.010.010.01NV Hexachloroethane 0.010.010.01NV Hexane (n)

0.050.055NV Indeno[1 2 3-cd]pyrene 0.110.230.20.2 Lead 45120 1.931 Mercury

0.160.270.10.2 Methoxychlor

0.050.050.05NV Methyl Ethyl Ketone 0.50.5400NV Methyl Isobutyl Ketone 0.50.5640NV Methyl Mercury **

NV NV 0.12NV Methyl tert-Butyl Ether (MTBE) 0.050.0515NV Methylene Chloride

0.050.055NV Methlynaphthalene, 2-(1-) ***0.050.592NV Molybdenum 2223NV Naphthalene 0.050.097NV Nickel

37821416 Pentachlorophenol

0.10.10.5NV Petroleum Hydrocarbons F1****1725420NV Petroleum Hydrocarbons F21010150NV Petroleum Hydrocarbons F3240240500NV Petroleum Hydrocarbons F4120120500NV Phenanthrene 0.190.690.10.56 Phenol

0.50.55NV Polychlorinated Biphenyls 0.30.30.20.07 Pyrene 0.1910.20.49 Selenium 1.2 1.55NV Silver 0.50.50.30.5 Styrene

0.050.050.5NV Tetrachloroethane, 1,1,1,2- 0.050.05 1.1NV Tetrachloroethane, 1,1,2,2- 0.050.050.5NV Tetrachloroethylene 0.050.050.5NV Thallium 110.5NV Toluene

0.20.20.8NV Trichlorobenzene, 1,2,4- 0.050.050.5NV Trichloroethane, 1,1,1- 0.050.050.5NV Trichloroethane, 1,1,2- 0.050.050.5NV Trichloroethylene

0.050.050.5NV Trichlorofluoromethane 0.050.25150NV Trichlorophenol, 2,4,5- 0.10.10.2NV Trichlorophenol, 2,4,6- 0.10.10.2NV Uranium 1.9 2.58.9NV

Contaminant

Agricultural or Other All Types of All Types of Property Use Property Uses Property Uses

Parkland/Institutional/

Industrial/Commercial/

Community Property

Use

Xylene Mixture 0.050.0572NV Zinc 290290160120 Electrical Conductivity (mS/cm)0.470.57NA NA Chloride NA NA 790000NV Sodium Adsorption Ratio 1 2.4NA NA Sodium NA NA 490000NV Notes

( ) Standard in bracket applies to medium and fine textured soils N/V= No value derived. N/A = Not applicable

**Analysis for methyl mercury only applies when mercury (total) standard is exceeded

**** F1 fraction does not include BTEX; however, the proponent has the choice as to whether or not to subtract BTEX from the analytical result.

*** The methyl naphthalene standards are appliable to both 1-methyl naphthallene and 2- methyl naphthalene , with the provision that if both are detected the sum of the two must not exceed the standard.

* The boron standards are for hot water soluble extract for all surface soils. For subsurface soils the standards are for total boron (mixed strong acid digest), since plant protection for soils below the root zone is not a significant concern.

Table 2Soil Standards (other than sediment)Potable Ground

Water

μg/gμg/L

Contaminant Agricultural or Other

Residential/

Parkland/Institutional

Industrial/

Commercial/Community

All Types of

Property

Property Use Property Use Property Use Use

Acenaphthene (29) 7.9(29) 7.9(29) 21 4.1 Acenaphthylene (0.17) 0.15(0.17) 0.15(0.17) 0.151 Acetone (28) 16(28) 16(28) 162700 Aldrin 0.050.05(0.11) 0.0880.35 Anthracene (0.74) 0.67(0.74) 0.67(0.74) 0.67 2.4 Antimony 7.57.5(50) 406 Arsenic 11181825 Barium 3903906701000 Benzene (0.17) 0.21(0.17) 0.21(0.4) 0.325 Benz[a]anthracene (0.63) 0.5(0.63) 0.50.961 Benzo[a]pyrene 0.0780.30.30.01 Benzo[b]fluoranthene 0.780.780.960.1 Benzo[ghi]perylene (7.8) 6.6(7.8) 6.69.60.2 Benzo[k]fluoranthene 0.780.780.960.1 Beryllium (5) 4(5) 4(10) 84 Biphenyl 1,1'- (1.1) 0.31(1.1) 0.31(210) 520.5 Bis(2-chloroethyl)ether 0.50.50.55 Bis(2-chloroisopropyl)ether (1.8) 0.67(1.8) 0.67(13) 11120 Bis(2-ethylhexyl)phthalate 55(35) 2810 Boron (Hot Water Soluble)* 1.5 1.52NA Boron (total)1201201205000 Bromodichloromethane (1.9) 1.5(1.9) 1.5(1.9) 1.516 Bromoform (0.26) 0.27(0.26) 0.27(1.7) 0.6125 Bromomethane 0.050.050.050.89 Cadmium 1 1.2 1.9 2.7 Carbon Tetrachloride (0.12) 0.05(0.12) 0.05(0.71) 0.21(5) 0.79 Chlordane 0.050.050.057 Chloroaniline p- (0.53) 0.5(0.53) 0.5(0.53) 0.510 Chlorobenzene (2.7) 2.4(2.7) 2.4(2.7) 2.430 Chloroform (0.18) 0.05(0.18) 0.05(0.18) 0.47(22) 2.4 Chlorophenol, 2- (2) 1.6(2) 1.6(3.9) 3.18.9 Chromium Total16016016050 Chromium VI (10) 8(10) 8(10) 825 Chrysene (7.8) 7(7.8) 79.60.1 Cobalt 2222(100) 80 3.8 Copper (180) 140(180) 140(300) 23087 Cyanide (CN-) 0.0510.0510.05166 Dibenz[a h]anthracene 0.10.10.10.2 Dibromochloromethane (2.9) 2.3(2.9) 2.3(2.9) 2.325 Dichlorobenzene, 1,2- (1.7) 1.2(1.7) 1.2(1.7) 1.23 Dichlorobenzene, 1,3- (6) 4.8(6) 4.8(12) 9.659 Dichlorobenzene, 1,4- (0.097) 0.083(0.097) 0.083(0.57) 0.21 Dichlorobenzidine, 3,3'- 1110.5 Dichlorodifluoromethane (25) 16(25) 16(25) 16590 DDD 3.3 3.3 4.610 DDE (0.33) 0.26(0.33) 0.26(0.65) 0.5210 DDT 0.078 1.4 1.4 2.8 Dichloroethane, 1,1- (0.6) 0.47(0.6) 0.47(0.6) 0.475 Dichloroethane, 1,2- 0.050.050.05(5) 1.6 Dichloroethylene, 1,1- 0.050.05(0.48) 0.064(14) 1.6 Dichloroethylene, 1,2-cis- (2.5) 1.9(2.5) 1.9(2.5) 1.9(17) 1.6 Dichloroethylene, 1,2-trans- (0.75) 0.084(0.75) 0.084(2.5) 1.3(17) 1.6 Dichlorophenol, 2,4- (0.27) 0.19(0.27) 0.19(0.27) 0.1920 Dichloropropane, 1,2- (0.085) 0.05(0.085) 0.05(0.68) 0.165 Dichloropropene,1,3- (0.081) 0.05(0.081) 0.05(0.081) 0.0590.5 TABLE 2: Full Depth Generic Site Condition Standards in a Potable Ground Water Condition

Contaminant Agricultural or Other Parkland/Institutional Commercial/Community Property

Property Use Property Use Property Use Use

Diethyl Phthalate 0.50.50.538 Dimethylphthalate 0.50.50.538 Dimethylphenol, 2,4- (53) 38(53) 38(53) 3859 Dinitrophenol, 2,4- (2.9) 2(2.9) 2(2.9) 210 Dinitrotoluene, 2,4 & 2,6- 0.50.50.55 Dioxane, 1,4 0.2 1.8 1.850 Dioxin/Furan (TEQ)0.0000130.0000130.0000990.000015 Endosulfan 0.040.04(0.38) 0.3 1.5 Endrin 0.040.040.040.48 Ethylbenzene (1.6) 1.1(1.6) 1.1(1.6) 1.1 2.4 Ethylene dibromide 0.050.050.050.2 Fluoranthene 0.690.699.60.41 Fluorene (69) 62(69) 62(69) 62120 Heptachlor 0.150.150.19 1.5 Heptachlor Epoxide 0.050.050.050.048 Hexachlorobenzene 0.520.520.661 Hexachlorobutadiene (0.014) 0.012(0.014) 0.012(0.095) 0.031(0.6) 0.44 Hexachlorocyclohexane Gamma- (0.063) 0.056(0.063) 0.056(0.063) 0.056 1.2 Hexachloroethane (0.071) 0.089(0.071) 0.089(0.43) 0.21 2.1 Hexane (n) (34) 2.8(34) 2.8(88) 46(520) 51 Indeno[1 2 3-cd]pyrene (0.48) 0.38(0.48) 0.38(0.95) 0.760.2 Lead 4512012010 Mercury(1.8) 0.25(1.8) 0.27(20) 3.9(1) 0.29 Methoxychlor 0.130.13 1.6 6.5 Methyl Ethyl Ketone (44) 16(44) 16(88) 701800 Methyl Isobutyl Ketone (4.3) 1.7(4.3) 1.7(210) 31640 Methyl Mercury **(0.0094) 0.0084(0.0094) 0.0084(0.0094) 0.00840.15 Methyl tert-Butyl Ether (MTBE) (1.4) 0.75(1.4) 0.75(2.3) 1.615 Methylene Chloride (0.96) 0.1(0.96) 0.1(2) 1.650 Methlynaphthalene, 2-(1-) ***(3.4) 0.99(3.4) 0.99(42) 30 3.2 Molybdenum 6.9 6.94070 Naphthalene (0.75) 0.6(0.75) 0.6(28) 9.611 Nickel (130) 100(130) 100(340) 270100 Pentachlorophenol 0.10.1(3.3) 2.930 Petroleum Hydrocarbons F1****(65) 55(65) 55(65) 55750 Petroleum Hydrocarbons F2(150) 98(150) 98(250) 230150 Petroleum Hydrocarbons F3(1300) 300(1300) 300(2500) 1700500 Petroleum Hydrocarbons F4(5600) 2800(5600) 2800(6600) 3300500 Phenanthrene (7.8) 6.2(7.8) 6.2(16) 121 Phenol 9.49.49.4890 Polychlorinated Biphenyls0.350.35 1.13 Pyrene 787896 4.1 Selenium 2.4 2.4 5.510 Silver (25) 20(25) 20(50) 40 1.5 Styrene (2.2) 0.7(2.2) 0.7(43) 34 5.4 Tetrachloroethane, 1,1,1,2- (0.05) 0.058(0.05) 0.058(0.11) 0.087 1.1 Tetrachloroethane, 1,1,2,2- 0.050.05(0.094) 0.051 Tetrachloroethylene (2.3) 0.28(2.3) 0.28(2.5) 1.9(17) 1.6 Thallium 11 3.32 Toluene (6) 2.3(6) 2.3(9) 6.424 Trichlorobenzene, 1,2,4- (1.4) 0.36(1.4) 0.36(16) 3.270 Trichloroethane, 1,1,1- (3.4) 0.38(3.4) 0.38(12) 6.1200 Trichloroethane, 1,1,2- 0.050.05(0.11) 0.05(5) 4.7 Trichloroethylene (0.52) 0.061(0.52) 0.061(0.61) 0.55(5) 1.6 Trichlorofluoromethane (5.8) 4(5.8) 4(5.8) 4150 Trichlorophenol, 2,4,5- (5.5) 4.4(5.5) 4.4(10) 9.18.9 Trichlorophenol, 2,4,6- (2.9) 2.1(2.9) 2.1(2.9) 2.12 Uranium23233320

Contaminant Agricultural or Other Parkland/Institutional Commercial/Community Property

Property Use Property Use Property Use Use

Xylene Mixture (25) 3.1(25) 3.1(30) 26300 Zinc 3403403401100 Electrical Conductivity (mS/cm)0.70.7 1.4NA Chloride NA NA NA790000 Sodium Adsorption Ratio5512NA Sodium NA NA NA490000 Notes

( ) Standard in bracket applies to medium and fine textured soils

N/V= No value derived. N/A = Not applicable

**Analysis for methyl mercury only applies when mercury (total) standard is exceeded

**** F1 fraction does not include BTEX; however, the proponent has the choice as to whether or not to subtract BTEX from the analytical result.

Table 3

Non- Potable Ground

Water μg/g

μg/L

Contaminant

Residential/ Parkland/Institutional

Industrial/

Commercial/Community

All Types of Property

Property Use

Use

Acenaphthene (58) 7.996

(1700) 600

Acenaphthylene (0.17) 0.15

(0.17) 0.15

1.8 Acetone (28) 16(28) 16130000

Aldrin 0.05(0.11) 0.0888.5 Anthracene (0.74) 0.67

(0.74) 0.67

2.4 Antimony 7.5(50) 40

20000 Arsenic 18181900 Barium 39067029000 Benzene

(0.17) 0.21(0.4) 0.32

(430) 44

Benz[a]anthracene (0.63) 0.5

0.96 4.7 Benzo[a]pyrene

0.30.30.81 Benzo[b]fluoranthene 0.780.960.75 Benzo[ghi]perylene (7.8) 6.6

9.60.2 Benzo[k]fluoranthene 0.780.960.4 Beryllium (5) 4(10) 867

Biphenyl 1,1'-

(1.1) 0.31

(210) 52

(2200) 1000

Bis(2-chloroethyl)ether 0.50.5300000 Bis(2-chloroisopropyl)ether (1.8) 0.67

(14) 1120000 Bis(2-ethylhexyl)phthalate 5(35) 28

140 Boron (Hot Water Soluble)* 1.52NA Boron (total)

12012045000 Bromodichloromethane 13

85000 Bromoform (0.26) 0.27

(1.7) 0.61

(770) 380 Bromomethane 0.050.05(56) 5.6

Cadmium

1.2

1.9

2.7 Carbon Tetrachloride (0.12) 0.05

(1.5) 0.21

(8.4) 0.79

Chlordane

0.050.0528 Chloroaniline p- (0.53) 0.5(0.53) 0.5400 Chlorobenzene (2.7) 2.4(2.7) 2.4630 Chloroform

(0.18) 0.05

(0.18) 0.47(22) 2.4 Chlorophenol, 2- (2) 1.6(3.9) 3.1

3300 Chromium Total 160160810 Chromium VI (10) 8(10) 8140 Chrysene (7.8) 7

9.61 Cobalt 22

(100) 8066 Copper

(180) 140

(300) 230

87 Cyanide (CN-)

0.0510.05166 Dibenz[a h]anthracene 0.10.10.52 Dibromochloromethane 9.41382000 Dichlorobenzene, 1,2- (4.3) 3.4(8.5) 6.8(9600) 4600

Dichlorobenzene, 1,3- (6) 4.8(12) 9.69600 Dichlorobenzene, 1,4- (0.097) 0.083

(0.84) 0.2

(67) 8 Dichlorobenzidine, 3,3'- 11640 Dichlorodifluoromethane (25) 16

(25) 16

4400 DDD 3.3

4.6

45 DDE (0.33) 0.26

(0.65) 0.52

20 DDT

1.4 1.4

2.8

Dichloroethane, 1,1- (11) 3.5(21) 17(3100) 320 Dichloroethane, 1,2- 0.050.05

(12) 1.6 Dichloroethylene, 1,1- 0.05(0.48) 0.064

(17) 1.6 Dichloroethylene, 1,2-cis- (30) 3.4(37) 55(17) 1.6 Dichloroethylene, 1,2-trans- (0.75) 0.084

(9.3) 1.3(17) 1.6 Dichlorophenol, 2,4- (2.1) 1.7(4.2) 3.44600 Dichloropropane, 1,2- (0.085) 0.05(0.68) 0.16(140) 16 Dichloropropene,1,3- (0.083) 0.05

(0.21) 0.18(45) 5.2TABLE 3: Full Depth Generic Site Condition Standards in a Non-Potable Ground Water Condition

Soil Standards (other than sediment)

Contaminant Parkland/Institutional Commercial/Community All Types of Property

Property Use Property Use Use

Diethyl Phthalate 0.50.538 Dimethylphthalate 0.50.538 Dimethylphenol, 2,4- (420) 390(440) 39039000 Dinitrophenol, 2,4- 38(66) 5911000 Dinitrotoluene, 2,4 & 2,6- 0.92 1.22900 Dioxane, 1,4 1.8 1.8(7300000)1900000 Dioxin/Furan (TEQ)0.0000130.000099(0.023) 0.014 Endosulfan 0.04(0.38) 0.3 1.5 Endrin 0.040.040.48 Ethylbenzene (15) 2(19) 9.52300 Ethylene dibromide 0.050.05(0.83) 0.25 Fluoranthene 0.699.6130 Fluorene (69) 62(69) 62400 Heptachlor 0.150.19 2.5 Heptachlor Epoxide 0.050.050.048 Hexachlorobenzene 0.520.66 3.1 Hexachlorobutadiene (0.014) 0.012(0.095) 0.031(4.5) 0.44 Hexachlorocyclohexane Gamma- (0.063) 0.056(0.063) 0.056 1.2 Hexachloroethane (0.071) 0.089(0.43) 0.21(200) 94 Hexane (n) (34) 2.8(88) 46(520) 51 Indeno[1 2 3-cd]pyrene (0.48) 0.38(0.95) 0.760.2 Lead 12012025 Mercury(1.8) 0.27(20) 3.9(2.8) 0.29 Methoxychlor 0.13 1.6 6.5 Methyl Ethyl Ketone (44) 16(88) 70(1500000) 470000 Methyl Isobutyl Ketone (4.3) 1.7(210) 31(580000) 140000 Methyl Mercury **(0.0094) 0.0084(0.0094) 0.00840.15 Methyl tert-Butyl Ether (MTBE) (1.4) 0.75(3.2) 11(1400) 190 Methylene Chloride (0.96) 0.1(2) 1.6(5500) 610 Methlynaphthalene, 2-(1-) ***(3.4) 0.99(85) 761800 Molybdenum 6.9409200 Naphthalene (0.75) 0.6(28) 9.6(6400) 1400 Nickel (130) 100(340) 270490 Pentachlorophenol 0.1(3.3) 2.962 Petroleum Hydrocarbons F1****(65) 55(65) 55750 Petroleum Hydrocarbons F2(150) 98(250) 230150 Petroleum Hydrocarbons F3(1300) 300(2500) 1700500 Petroleum Hydrocarbons F4(5600) 2800(6600) 3300500 Phenanthrene (7.8) 6.2(16) 12580 Phenol 9.49.412000 Polychlorinated Biphenyls0.35 1.1(15) 7.8 Pyrene 789668 Selenium 2.4 5.563 Silver (25) 20(50) 40 1.5 Styrene (2.2) 0.7(43) 34(9100) 1300 Tetrachloroethane, 1,1,1,2- (0.05) 0.058(0.11) 0.087(28) 3.3 Tetrachloroethane, 1,1,2,2- 0.05(0.094) 0.05(15) 3.2 Tetrachloroethylene (2.3) 0.28(21) 4.5(17) 1.6 Thallium 1 3.3510 Toluene (6) 2.3(78) 6818000 Trichlorobenzene, 1,2,4- (1.4) 0.36(16) 3.2(850) 180 Trichloroethane, 1,1,1- (3.4) 0.38(12) 6.1(6700) 640 Trichloroethane, 1,1,2- 0.05(0.11) 0.05(30) 4.7 Trichloroethylene (0.52) 0.061(0.61) 0.91(17) 1.6 Trichlorofluoromethane (5.8) 4(5.8) 42500 Trichlorophenol, 2,4,5- (5.5) 4.4101600 Trichlorophenol, 2,4,6- (4.2) 3.8(4.2) 3.8230 Uranium2333420

Contaminant Parkland/Institutional Commercial/Community All Types of Property

Property Use Property Use Use

Xylene Mixture (25) 3.1(30) 264200 Zinc 3403401100 Electrical Conductivity (mS/cm)0.7 1.4#N/A Chloride NA NA2300000 Sodium Adsorption Ratio512NA Sodium NA NA2300000 Notes

( ) Standard in bracket applies to medium and fine textured soils

N/V= No value derived. N/A = Not applicable

**Analysis for methyl mercury only applies when mercury (total) standard is exceeded

**** F1 fraction does not include BTEX; however, the proponent has the choice as to whether or not to subtract BTEX from the analytical result.

Table 4

Soil Standards (other than sediment)

Potable Ground

Water μg/g

μg/L Contaminant

All Types of Property Surface Soil

Subsurface Soil Surface Soil Subsurface Soil Use

Acenaphthene

(29) 7.9(29) 7.9(29) 21(29) 21 4.1 Acenaphthylene (0.17) 0.15

(0.17) 0.15

1 Acetone (28) 16(28) 16

(28) 16(28) 16

2700 Aldrin 0.05 4.7

(0.11) 0.088 6.3

0.35 Anthracene (0.74) 0.67

(0.74) 0.67

2.4 Antimony 7.563(50) 40

636 Arsenic 1818

1847

25 Barium 390(8600) 7700670(8600) 77001000

Benzene

(0.17) 0.21(0.17) 0.21

(0.4) 0.32

(1.3) 0.92

5 Benz[a]anthracene (0.63) 0.5

0.960.96361 Benzo[a]pyrene

0.30.30.3 3.60.01 Benzo[b]fluoranthene 0.780.960.96360.1 Benzo[ghi]perylene (7.8) 6.6

9.69.63600.2 Benzo[k]fluoranthene 0.780.960.96360.1 Beryllium (5) 460(10) 8604 Biphenyl 1,1'-

(1.1) 0.31

(83) 11

(210) 52

0.5 Bis(2-chloroethyl)ether 0.50.50.50.55 Bis(2-chloroisopropyl)ether (1.8) 0.67

(13) 11(13) 11(13) 11120 Bis(2-ethylhexyl)phthalate 5(1200) 830

(35) 28

(1200) 830

10 Boron (Hot Water Soluble)* 1.5NA

2NA

NA Boron (total)

NA (7900) 5000

5000 Bromodichloromethane (1.9) 1.5(1.9) 1.5(1.9) 1.5(1.9) 1.516 Bromoform (0.26) 0.27

(0.26) 0.27

(1.7) 0.61

(2.7) 225 Bromomethane 0.050.050.050.050.89 Cadmium

1.2

7.9

1.9

7.9

2.7 Carbon Tetrachloride (0.12) 0.05

(0.12) 0.05

(0.71) 0.21

(0.71) 0.43

(5) 0.79

Chlordane

0.050.80.05307 Chloroaniline p- (0.53) 0.5(0.53) 0.5(0.53) 0.5(0.53) 0.510 Chlorobenzene (2.7) 2.4(2.7) 2.4(2.7) 2.4(2.7) 2.430 Chloroform

(0.18) 0.05

(0.18) 0.05(0.18) 0.47(0.19) 0.85(22) 2.4

Chlorophenol, 2- (2) 1.6(5.1) 3.7(3.9) 3.1

(5.1) 3.78.9 Chromium Total 160(18000) 11000

160(18000) 11000

50 Chromium VI (10) 840(10) 84025 Chrysene (7.8) 7

9.69.6(28) 200.1 Cobalt 22

250(100) 802500 3.8 Copper

(180) 140

5600(300) 230

560087 Cyanide (CN-)

0.0510.0510.0510.05166 Dibenz[a h]anthracene 0.10.10.1 3.60.2 Dibromochloromethane (2.9) 2.3(2.9) 2.3(2.9) 2.3(2.9) 2.325 Dichlorobenzene, 1,2- (1.7) 1.2(1.7) 1.2(1.7) 1.2(1.7) 1.23 Dichlorobenzene, 1,3- (6) 4.8(34) 24(12) 9.6(34) 2459 Dichlorobenzene, 1,4- (0.097) 0.083

(0.097) 0.083

(0.57) 0.2

(0.57) 0.39

1 Dichlorobenzidine, 3,3'- 11110.5 Dichlorodifluoromethane (25) 16

(25) 16

(25) 16590 DDD 3.3

4.6 4.6

11010 DDE (0.33) 0.26

3.2(0.65) 0.52

11010 DDT

1.4 3.2 1.4110

2.8 Dichloroethane, 1,1- (0.6) 0.47

(0.6) 0.47

(0.6) 0.475 Dichloroethane, 1,2- 0.050.050.05

(0.05) 0.055(5) 1.6 Dichloroethylene, 1,1- 0.050.05(0.48) 0.064

(0.53) 0.12(14) 1.6 Dichloroethylene, 1,2-cis- (2.5) 1.9(2.5) 1.9(2.5) 1.9(2.5) 1.9(17) 1.6 Dichloroethylene, 1,2-trans- (0.75) 0.084(0.75) 0.084(2.5) 1.3(2.5) 1.9(17) 1.6

Dichlorophenol, 2,4- (0.27) 0.19(0.27) 0.19(0.27) 0.19(0.27) 0.1920 Dichloropropane, 1,2- (0.085) 0.05(0.085) 0.05(0.68) 0.16(0.74) 0.335 Dichloropropene,1,3- (0.081) 0.05

(0.081) 0.05(0.081) 0.059(0.081) 0.0590.5TABLE 4: Stratified Site Condition Standards in a Potable Ground Water Condition

Residential/ Parkland/Institutional Property Use Industrial/ Commercial/Community

Property Use

Property Use Property Use

Contaminant Property

Surface Soil Subsurface Soil Surface Soil Subsurface Soil Use

Diethyl Phthalate 0.50.50.50.538 Dimethylphthalate 0.50.50.50.538 Dimethylphenol, 2,4- (53) 38(53) 38(53) 38(53) 3859 Dinitrophenol, 2,4- (2.9) 2(2.9) 2(2.9) 2(2.9) 210 Dinitrotoluene, 2,4 & 2,6- 0.50.50.50.55 Dioxane, 1,4 1.8(7.7) 7.5 1.8(7.7) 7.550 Dioxin/Furan (TEQ)0.0000130.000510.000099(0.0026) 0.00180.000015 Endosulfan 0.04(0.51) 0.46(0.38) 0.3(0.51) 0.46 1.5 Endrin 0.04(0.079) 0.0710.04(0.079) 0.0710.48 Ethylbenzene (1.6) 1.1(1.6) 1.1(1.6) 1.1(1.6) 1.1 2.4 Ethylene dibromide 0.050.050.050.050.2 Fluoranthene 0.699.69.6(34) 240.41 Fluorene (69) 62(69) 62(69) 62(69) 62120 Heptachlor 0.150.190.19(2) 1.8 1.5 Heptachlor Epoxide 0.050.050.050.050.048 Hexachlorobenzene 0.520.660.66(4) 2.91 Hexachlorobutadiene (0.014) 0.012(0.014) 0.012(0.095) 0.031(0.11) 0.06(0.6) 0.44 Hexachlorocyclohexane Gamma- (0.063) 0.056(0.063) 0.056(0.063) 0.056(0.063) 0.056 1.2 Hexachloroethane (0.071) 0.089(0.071) 0.089(0.43) 0.21(0.69) 0.49 2.1 Hexane (n) (34) 2.8(34) 2.8(88) 46(88) 54(520) 51 Indeno[1 2 3-cd]pyrene (0.48) 0.380.96(0.95) 0.76360.2 Lead 1201000120100010 Mercury(1.8) 0.27(1.8) 0.27(20) 3.9(30) 13(1) 0.29 Methoxychlor 0.13 1.6 1.6 1.6 6.5 Methyl Ethyl Ketone (44) 16(180) 16(88) 70(310) 1501800 Methyl Isobutyl Ketone (4.3) 1.7(66) 6.6(210) 31(210) 64640 Methyl Mercury **(0.0094) 0.0084(0.0094) 0.0084(0.0094) 0.0084(0.0094) 0.00840.15 Methyl tert-Butyl Ether (MTBE) (1.4) 0.75(1.4) 0.75(2.3) 1.6(2.3) 1.615 Methylene Chloride (0.96) 0.1(0.96) 0.1(2) 1.6(5.7) 350 Methlynaphthalene, 2-(1-) ***(3.4) 0.99(42) 30(42) 30(42) 30 3.2 Molybdenum 6.9120040120070 Naphthalene (0.75) 0.6(4.6) 0.65(28) 9.6(130) 9311 Nickel (130) 100510(340) 270510100 Pentachlorophenol 0.1(3.3) 2.9(3.3) 2.9(3.3) 2.930 Petroleum Hydrocarbons F1****(65) 55(65) 55(65) 55(65) 55750 Petroleum Hydrocarbons F2(150) 98(150) 98(250) 230(250) 230150 Petroleum Hydrocarbons F3(1300) 300(7200) 5800(2500) 1700(7200) 5800500 Petroleum Hydrocarbons F4(5600) 2800(8000) 6900(6600) 3300(8000) 6900500 Phenanthrene (7.8) 6.2(24) 17(16) 12(24) 171 Phenol 9.4(53) 469.4(53) 46890 Polychlorinated Biphenyls0.35 2.7 1.1 4.13 Pyrene 789696(330) 240 4.1 Selenium 2.41200 5.5120010 Silver (25) 20490(50) 40490 1.5 Styrene (2.2) 0.7(19) 16(43) 34(66) 47 5.4 Tetrachloroethane, 1,1,1,2- (0.05) 0.058(0.05) 0.058(0.11) 0.087(0.14) 0.15 1.1 Tetrachloroethane, 1,1,2,2- 0.050.05(0.094) 0.05(0.11) 0.051 Tetrachloroethylene (2.3) 0.28(2.3) 0.28(2.5) 1.9(2.5) 1.9(17) 1.6 Thallium 1 3.3 3.3332 Toluene (6) 2.3(9) 6.2(9) 6.4(9) 6.424 Trichlorobenzene, 1,2,4- (1.4) 0.36(1.4) 0.36(16) 3.2(22) 1070 Trichloroethane, 1,1,1- (3.4) 0.38(3.4) 0.38(12) 6.1(12) 9.8200 Trichloroethane, 1,1,2- 0.050.05(0.11) 0.05(0.13) 0.068(5) 4.7 Trichloroethylene (0.52) 0.061(0.52) 0.061(0.61) 0.55(0.69) 0.55(5) 1.6 Trichlorofluoromethane (5.8) 4(5.8) 4(5.8) 4(5.8) 4150 Trichlorophenol, 2,4,5- (5.5) 4.4(13) 9.1(10) 9.1(13) 9.18.9 Trichlorophenol, 2,4,6- (2.9) 2.1(2.9) 2.1(2.9) 2.1(2.9) 2.12 Uranium233003330020

Property Use Property Use

Contaminant Property

Surface Soil Subsurface Soil Surface Soil Subsurface Soil Use

Xylene Mixture (25) 3.1(25) 3.1(30) 26(30) 26300 Zinc 340(24000) 15000340(24000) 150001100 Electrical Conductivity (mS/cm)0.7NA 1.4NA N/A Chloride NA NV NA NV790000 Sodium Adsorption Ratio5NA12NA N/A Sodium NA NV NA NV490000 Notes

( ) Standard in bracket applies to medium and fine textured soils

N/V= No value derived. N/A = Not applicable

* The boron standards are for hot water soluble extract for all surface soils. For subsurface soils the standards are for

total boron (mixed strong acid digest), since plant protection for soils below the root zone is not a significant concern.

**Analysis for methyl mercury only applies when mercury (total) standard is exceeded

*** The methyl naphthalene standards are appliable to both 1-methyl naphthallene and 2- methyl naphthalene , with the

provision that if both are detected the sum of the two must not exceed the standard.

**** F1 fraction does not include BTEX; however, the proponent has the choice as to whether or not to subtract BTEX

from the analytical result.

Table 5

Soil Standards (other than sediment)

Non-Potable Ground Water

μg/g

μg/L Contaminant

All Types of Property Surface Soil

Subsurface Soil Surface Soil

Subsurface Soil Use Acenaphthene

(58) 7.9(58) 7.996

(620) 330(1700) 600

Acenaphthylene (0.17) 0.15

(0.17) 0.15

1.8 Acetone (28) 16(28) 16

(28) 16(28) 16

130000

Aldrin 0.05 4.7

(0.11) 0.088 6.3

8.5 Anthracene (0.74) 0.67

(0.74) 0.67

2.4 Antimony 7.563(50) 40

6320000 Arsenic 1818

1847

1900 Barium 390(8600) 7700670(8600) 7700

29000 Benzene

(0.17) 0.21(0.17) 0.21

(0.4) 0.32

(4.4) 6.1

(430) 44

Benz[a]anthracene (0.63) 0.5

0.960.9636 4.7 Benzo[a]pyrene

0.30.30.3 3.60.81 Benzo[b]fluoranthene 0.780.960.96360.75 Benzo[ghi]perylene (7.8) 6.6

9.69.63600.2 Benzo[k]fluoranthene 0.780.960.96360.4 Beryllium (5) 460(10) 86067

Biphenyl 1,1'-

(1.1) 0.31

(83) 11

(210) 52

(2200) 1000

Bis(2-chloroethyl)ether 0.50.50.516300000 Bis(2-chloroisopropyl)ether (1.8) 0.67

(14) 11(14) 11(14) 1120000 Bis(2-ethylhexyl)phthalate 5(8300) 7100

(35) 28

(8300) 7100

140 Boron (Hot Water Soluble)* 1.5NA

2NA

NA Boron (total)

NA (7900) 5000

45000 Bromodichloromethane 13

(63) 5085000 Bromoform (0.26) 0.27

(0.26) 0.27

(1.7) 0.61

(2.7) 2(770) 380 Bromomethane 0.050.050.050.05(56) 5.6

Cadmium

1.2

7.9

1.97.9

2.7 Carbon Tetrachloride (0.12) 0.05

(0.12) 0.05

(1.5) 0.21

(1.7) 0.43

(8.4) 0.79

Chlordane

0.050.80.053028 Chloroaniline p- (0.53) 0.5(0.53) 0.5(0.53) 0.5(0.53) 0.5400 Chlorobenzene (2.7) 2.4(2.7) 2.4(2.7) 2.4(2.7) 2.4630 Chloroform

(0.18) 0.05

(0.18) 0.47(0.19) 0.85

(22) 2.4 Chlorophenol, 2- (2) 1.6(23) 21

(3.9) 3.1

(23) 21

3300 Chromium Total 160(18000) 11000

160(18000) 11000

810 Chromium VI (10) 840(10) 840140 Chrysene (7.8) 7

9.69.63601 Cobalt 22

250(100) 80250066 Copper

(180) 140

5600(300) 230

560087 Cyanide (CN-)

0.0510.0510.0510.05166 Dibenz[a h]anthracene 0.10.10.1 3.60.52 Dibromochloromethane 9.41313(61) 4882000 Dichlorobenzene, 1,2- (4.3) 3.4(52) 35(8.5) 6.8(68) 60(9600) 4600

Dichlorobenzene, 1,3- (6) 4.8(67) 59(12) 9.6(67) 599600 Dichlorobenzene, 1,4- (0.097) 0.083

(0.097) 0.083

(0.84) 0.2

(0.97) 0.39

(67) 8 Dichlorobenzidine, 3,3'- 11125640 Dichlorodifluoromethane (25) 16

(25) 16

(25) 164400 DDD 3.3

4.6 4.6

11045 DDE (0.33) 0.26

3.2(0.65) 0.52

11020 DDT

1.4 3.2 1.4110

2.8

Dichloroethane, 1,1- (11) 3.5(31) 3.5(21) 17(45) 120(3100) 320 Dichloroethane, 1,2- 0.050.050.05

(0.05) 0.055(12) 1.6 Dichloroethylene, 1,1- 0.050.05(0.48) 0.064

(0.53) 0.12(17) 1.6 Dichloroethylene, 1,2-cis- (30) 3.4(30) 3.4(37) 55(43) 110(17) 1.6 Dichloroethylene, 1,2-trans- (0.75) 0.084

(0.75) 0.084

(9.3) 1.3(11) 2.9(17) 1.6 Dichlorophenol, 2,4- (2.1) 1.7(52) 46(4.2) 3.4(52) 464600 Dichloropropane, 1,2- (0.085) 0.05(0.085) 0.05(0.68) 0.16(0.75) 0.33(140) 16 Dichloropropene,1,3- (0.083) 0.05

(0.083) 0.05(0.21) 0.18(0.24) 0.34(45) 5.2Residential/ Parkland/Institutional Property Use Industrial/ Commercial/Community

Property Use TABLE 5: Stratified Site Condition Standards in a Non-Potable Ground Water Condition

Property Use Property Use

Contaminant Property

Surface Soil Subsurface Soil Surface Soil Subsurface Soil Use

Diethyl Phthalate 0.50.50.50.538 Dimethylphthalate 0.50.50.50.538 Dimethylphenol, 2,4- (420) 390(440) 390(440) 390(440) 39039000 Dinitrophenol, 2,4- 38(66) 59(66) 59(66) 5911000 Dinitrotoluene, 2,4 & 2,6- 0.92 1.2 1.2(17) 152900 Dioxane, 1,4 1.8100 1.8(1500) 810(7300000) 1900000 Dioxin/Furan (TEQ)0.0000130.000510.0000990.0044(0.023) 0.014 Endosulfan 0.04(0.51) 0.46(0.38) 0.3(0.51) 0.46 1.5 Endrin 0.04(0.079) 0.0710.04(0.079) 0.0710.48 Ethylbenzene (15) 2(16) 2(19) 9.5(19) 172300 Ethylene dibromide 0.050.050.050.05(0.83) 0.25 Fluoranthene 0.699.69.6360130 Fluorene (69) 62(69) 62(69) 62(69) 62400 Heptachlor 0.150.190.19(2) 1.8 2.5 Heptachlor Epoxide 0.050.050.050.050.048 Hexachlorobenzene 0.520.660.66(15) 14 3.1 Hexachlorobutadiene (0.014) 0.012(0.014) 0.012(0.095) 0.031(0.11) 0.06(4.5) 0.44 Hexachlorocyclohexane Gamma- (0.063) 0.056(0.063) 0.056(0.063) 0.056(0.063) 0.056 1.2 Hexachloroethane (0.071) 0.089(0.071) 0.089(0.43) 0.21 1.7(200) 94 Hexane (n) (34) 2.8(34) 2.8(88) 46(88) 54(520) 51 Indeno[1 2 3-cd]pyrene (0.48) 0.380.96(0.95) 0.76360.2 Lead 1201000120100025 Mercury(1.8) 0.27(1.8) 0.27(20) 3.9(30) 13(2.8) 0.29 Methoxychlor 0.13 1.6 1.6 1.6 6.5 Methyl Ethyl Ketone (44) 16(180) 16(88) 70(380) 150(1500000) 470000 Methyl Isobutyl Ketone (4.3) 1.7(66) 6.6(210) 31(210) 64(580000) 140000 Methyl Mercury **(0.0094) 0.0084(0.0094) 0.0084(0.0094) 0.0084(0.0094) 0.00840.15 Methyl tert-Butyl Ether (MTBE) (1.4) 0.75(1.4) 0.75(3.2) 11(3.4) 14(1400) 190 Methylene Chloride (0.96) 0.1(0.96) 0.1(2) 1.6(9.8) 3(5500) 610 Methlynaphthalene, 2-(1-) ***(3.4) 0.99(85) 34(85) 76(85) 761800 Molybdenum 6.912004012009200 Naphthalene (0.75) 0.6(4.6) 0.65(28) 9.6(220) 200(6400) 1400 Nickel (130) 100510(340) 270510490 Pentachlorophenol 0.1(3.3) 2.9(3.3) 2.9(3.3) 2.962 Petroleum Hydrocarbons F1****(65) 55(65) 55(65) 55(65) 55750 Petroleum Hydrocarbons F2(150) 98(150) 98(250) 230(250) 230150 Petroleum Hydrocarbons F3(1300) 300(7200) 5800(2500) 1700(7200) 5800500 Petroleum Hydrocarbons F4(5600) 2800(8000) 6900(6600) 3300(8000) 6900500 Phenanthrene (7.8) 6.2(300) 270(16) 12(300) 270580 Phenol 9.4(53) 469.4(53) 4612000 Polychlorinated Biphenyls0.35 2.7 1.1 4.1(15) 7.8 Pyrene 789696(2900) 260068 Selenium 2.41200 5.5120063 Silver (25) 20490(50) 40490 1.5 Styrene (2.2) 0.7(19) 16(43) 34(75) 66(9100) 1300 Tetrachloroethane, 1,1,1,2- (0.05) 0.058(0.05) 0.058(0.11) 0.087(0.14) 0.24(28) 3.3 Tetrachloroethane, 1,1,2,2- 0.050.05(0.094) 0.05(0.11) 0.05(15) 3.2 Tetrachloroethylene (2.3) 0.28(2.3) 0.28(21) 4.5(21) 9.5(17) 1.6 Thallium 1 3.3 3.333510 Toluene (6) 2.3(50) 6.2(78) 68(78) 6818000 Trichlorobenzene, 1,2,4- (1.4) 0.36(1.4) 0.36(16) 3.2(22) 10(850) 180 Trichloroethane, 1,1,1- (3.4) 0.38(3.4) 0.38(12) 6.1(12) 9.8(6700) 640 Trichloroethane, 1,1,2- 0.050.05(0.11) 0.05(0.13) 0.068(30) 4.7 Trichloroethylene (0.52) 0.061(0.52) 0.061(0.61) 0.91(0.69) 1.8(17) 1.6 Trichlorofluoromethane (5.8) 4(5.8) 4(5.8) 4(5.8) 42500 Trichlorophenol, 2,4,5- (5.5) 4.4(30) 2710(30) 271600 Trichlorophenol, 2,4,6- (4.2) 3.8(4.2) 3.8(4.2) 3.8(4.2) 3.8230 Uranium2330033300420

Property Use Property Use

Contaminant Property

Surface Soil Subsurface Soil Surface Soil Subsurface Soil Use

Xylene Mixture (25) 3.1(25) 3.1(30) 26(30) 264200 Zinc 340(24000) 15000340(24000) 150001100 Electrical Conductivity (mS/cm)0.7NA 1.4NA#N/A Chloride NA NV NA NV2300000 Sodium Adsorption Ratio5NA12NA NA Sodium NA NV NA NV2300000 Notes

( ) Standard in bracket applies to medium and fine textured soils

N/V= No value derived. N/A = Not applicable

* The boron standards are for hot water soluble extract for all surface soils. For subsurface soils the standards are for

total boron (mixed strong acid digest), since plant protection for soils below the root zone is not a significant concern.

**Analysis for methyl mercury only applies when mercury (total) standard is exceeded

*** The methyl naphthalene standards are appliable to both 1-methyl naphthallene and 2- methyl naphthalene , with the

provision that if both are detected the sum of the two must not exceed the standard.

**** F1 fraction does not include BTEX; however, the proponent has the choice as to whether or not to subtract BTEX from

the analytical result.

加拿大个人旅游签证申请表

加拿大个人旅游签证申请表加拿大签证申请表201101(1/5) 姓名性别曾用名国籍婚姻状况结婚日期年月日若离异或再婚，请提供前任配偶姓名及婚姻具体起止日期身份证号码出生地省市/镇户口所在地出生日期: 年月日家庭电话谁提供费用具体家庭地址(邮编) 申请人单位名称(中、英文) 单位电话单位地址传真职务手机邮政编码护照号码: 签发地签发日期截至日期是否有亲属在加拿大: 是否在加拿大身份: 与本人关系是否有人曾申请过加拿大签证是否若选是请提供申请类型、签发日期以及赴加拿大日期是否曾被加拿大拒签: 是否次数最后一次时间签证类别过去5年，你是否在国外居住超过6个月, 是否如答是请提供细节，包括国家、身份、居住起止日期你是否曾经参军, 是否如答是请填写申请补充表你是否有在任何国家犯罪、被拘捕或因任何刑事犯罪被指控, 是否如答是请填写申请补充表你是否曾任职于政府机构、或司法部门、或政党,是否(如公务员、警察、医院行政人员、法官、议员等) 如答是请填写申请补充表你的护照是否曾经遗失或者被盗, 是否加拿大联系人的姓名或组织者的名字和地址及与申请人的关系(包括电话号码，如随团旅游可不填写): 你是否有具体的旅行安排, 是否 (如随团旅游可不填写)如选是请填写具体往返时间、航班号、所住酒店名称地址及加拿大联系人或公司姓名地址。

预计抵达加拿大时间: 年月日/ 加拿大停留时间: 在加拿大期间可用资金(加元): 列出过去5年内你曾经进入的所有国家(包括每次访问起始日期) 我谨声明:本表所列各项内容均属事实且详尽。我明白，所列内容如被发现不实或不详，我的申请将被驳回。加拿大签证申请表201101(2/5) 关系姓名出生日期及地点现行地址现行职业签证申请人申请人配偶申请人母亲申请人父亲申请人之子女(包括正式继养、收养之子女) 姓名关系婚姻状况出生日期及地点现行地址现行职业申请人之兄弟姐妹(包括同父异母及同母异父之兄弟姐妹) 姓名关系婚姻状况出生日期及地点现行地址现行职业我谨声明:本表所列各项内容均属事实且详尽。我明白，所列内容如被发现不实或不详，我的申请将被驳回。加拿大签证申请表201101(3/5) 教育详情表日期学校的名称及地址学历/学位课程类别自至名称: 地址: 名称: 地址:

加拿大主要城市气候分析

加拿大幅员辽阔，作为世界上地理面积第二大国家，其北面领土达北纬83度，南面为北纬41度。总体而言，加拿大国境属于北欧型态的大陆型气候，阳光充沛、四季分明:3月中旬至6月下旬为春季;6月下旬至9月中旬为夏季;9月中旬至12月下旬为秋季;12月下旬至来年3月中旬为冬季。大多数地区的气候类似中国东北地区。主要城市分布在全国的5个气候区:太平洋地区（西海岸区）、平原地区、中部地区（大湖-圣劳伦斯低地区）、大西洋地区和北方地区。因此，各个城市气候有着不同的特点。以华人最多的温哥华为例，是全加拿大冬季最暖和的城市，最冷的1月平均气温为3℃，7月的平均气温为17℃，基本上一年四季如春，被联合国评为最适合人类居住的城市。其气候属于温带海洋性气候，是加拿大少数几个气候温暖的城市之一，适合亚洲人居住，因此是很多中国人首选的城市。加拿大第一大城市多伦多的气候则类似于北京，不同的是冬季较长且多雪，而夏季又无酷暑。首都渥太华及魁北克省会魁北克市的气候相当于中国的长春、哈尔滨。由于加拿大先进的冬季除雪及取暖设施，家庭、商店、交通工具等公共场所有都充足的暖气保障，所以其冬季依然是非常的暖和。以下是加拿大主要城市的全年气候标准值: 多伦多/Toronto :

渥太华/Ottawa: 蒙特里尔/Montreal : 温哥华/Vancouver :

维多利亚/Victoria : 埃德蒙顿/Edmonton :

卡尔加里/Calgary : 温尼伯/Winnipeg : 温莎/Windsor :

魁北克市/Quebec City :

THANKS !!! 致力为企业和个人提供合同协议，策划案计划书，学习课件等等打造全网一站式需求欢迎您的下载，资料仅供参考

加拿大个人旅游签证手册

加拿大个人旅游签证手册一、心理准备：不签证不知道咱们还是第三世界国家的人民，想去发达国家花钱都得看别人的脸色。首先我们必须认识到这一点，放低姿态，积极准备、同时也做好签不过的准备。即便签不过也不要在签证处和人家吵闹呀。我签之前用了10多天的时间准备各种资料，准备签不过加拿大就立刻改签欧洲去法国或德国滑雪。所以我在准备诸如请假信、在职证明之类的材料的时候没有明确目的国家。否则签不过再找老板、公司HR签字太麻烦。二、材料准备：我套用之前查到的一个上海MM的加拿大个人游签证的攻略里说的， “不要以为很容易，我材料准备的真的很辛苦，而且用心良苦 ~ 想到的都准备了~ 而且还要所有材料有条理，有逻辑性~ 整套材料就是说明了3个问题： 1)，为什么要去那里旅游（旅游的动机） 2)，无滞留可能 3)，足够旅游的资金” A. 以下是加拿大使馆签证处要求的材料清单申请人每人须提供： 1. 两份用英文或法文填写的“临时居民签证申请表”(可以从加拿大大使馆网上下载),并签名、注明日期。在每份表格上须亲笔签名。注意：将你雇主的电话和传真号码一并填写在表格第10栏内。 2. 一份用中文及英文，或中文及法文填写的“家属表/教育和就业细节表”(可以从加拿大大使馆网上下载),，并签名、注明日期。在每份表格上须亲笔签名。 3. 四张在近六个月以内拍摄的护照像尺寸的照片（彩色或黑白均可），并在每张照片的背面用汉语拼音清晰地注明该申请人的姓名和出生日期（依照“日/月/年”的顺序）。 4. 护照或旅行证件的原件，其中必须至少有一页空白页，其有效期至少要持续到你计划从加拿大离境日期后的一个月。 5. 两张写好自己通讯地址的可粘贴标签，将你的姓名、地址和邮政编码用中文填写在上面。 6. 准确数额的申请费。请注意：持外交或公务护照的申请人无

英美概况---加拿大历史

一、原住民加拿大的历史可追逆至二万七千年前的冰川期结束的时候。育空地区出土的文物显示，当时已有人类通过因为冰川退缩而显露出来的陆桥，从亚洲迁徙到此地。这些人是否就是加拿大的原住民因纽特人或印第安人的祖先，目前还没有足够的证据可以作出判断。但是对因纽特人语言的研究指出，他们的语言是古代亚洲语的一种，学术界称之为古亚细亚语系爱斯基摩-阿留申语族。在卑诗省的的史基纳河谷有证据表明，印第安人至少已经在那里连续居住了五千年。欧洲人到来之前，印第安人和因纽特人在加拿大的土地上长期靠采集、农耕或渔猎为生。二、加拿大的发现写于十三世纪的北欧传奇声称，"红人"艾力克于公元九百八十五年左右到达格陵兰，他的儿子在纽芬壮大的北端建立了一个短暂的定居点。显然，斯堪的纳维亚的怀金人曾经多次横渡大西洋前往加拿大，随后欧洲的渔民也曾偶尔漂流到此地。但是，有正式文献记载的发现则到十五世纪末才开始。一四九四年，英国的探险家约翰.卡波特（John Cabot）到达了纽芬兰岛。他发现，这里有些地方鱼群竟稠密到足以降低他的船速的地步。一五三四年，法国人杰克。卡第艾（Jacques Cartier）到达了对罗伦斯湾。他发现此地盛产珍贵的毛皮。十六世纪上半期，法国航海家多次到达加拿大东海岸，他们把这一带称?quot;新法兰西"。直到詹姆士.库克（James Cook）船长一七七六至一七七九年的航行探险之后，基督教世界才得知在洛基山脉以西还有大片土地存在。从一七九二至一七九四年，乔志.温哥华（George Vancouver）在测绘西北海岸线时，以蒙特利乐为基地的西北毛皮公司也在对加拿大西北的内陆进行勘察。一七九三年，亚历山大.麦肯锡(Alexander Mackenzie)横穿了整个大陆。一八O八年，西门。弗雷泽（Simon Fletcher）也克服了重重困难，翻越洛基山，发现弗雷泽河，并顺流通到达太平洋的岸边。一七九八至一八O二年，大卫.汤姆森（David Thomson）花了四年时间，从头到尾勘测了哥伦比亚河。

加拿大官网旅游签证_在职收入证明(中英文)

（在职收入证明，给加拿大官网网签用的是英文版。下面附的中文翻译是不需要的，大家使用的时候请删除。在职证明由本人亲自撰写，白本获签8年多次往返，如有其他疑问可以与我联系，新浪微博：神马菜菜籽） DATE:****/**/** 翻译：时间：****年**月**日 Visa Section 翻译：签证部门 Ms./Mr. **** (ID No.******************) is an employee of the *** department in our company since ****. Her/His annual income is about RMB **,***, incloding salary, bonus, and subsidies. We have approved her/his annual leave from ****/**/** to ****/**/** for her/his holiday to *******. All the expenses during the travel will be borne by herself/himself. We hereby guarantee Ms./Mr. **** will obey the laws in outbound and we shall retain her/his position till the end of the holiday. 翻译：****女士/先生（身份证号：******************）自****年起在我公司***部门开始工作。她/他的年收入大约为***元人民币，包括基本工资、年终奖金和其他补贴。我们已经批准了她/他去***国家的假期，从****年**月**日到****年**月**日。所有旅行开支由她/他本人负担，我公司兹证明**女士/先生将遵守一切贵国法律，我公司将在她/他旅行期间保留她/他的职位直到回国。 Signature：（给你出证明的领导的签名、加盖公司公章） Position: **********（给你出证明的领导的职位） Company：**********（公司名） Add：**************（公司地址） Tel：***********（公司电话） Fax：***********（公司传真）

加拿大土地价格问题

加拿大土地价格问题！悬赏分：200|解决时间：2009-8-25 09:37 |提问者：假如我要在加拿大的某草原买个牧场，谁知道一般大一点的面积是多少，平均一亩的价钱是多少！问题补充：主要以畜牧业为主的最好周围有山! 最佳答案加拿大买土地为终生私有制，土地的价格不等，从600–4250加元/英亩，1英亩= 市亩，加拿大卖土地是包括不动产的，有的地块有别墅、有养猪场、养鸡场、储粮的金属自动调温粮仓及其它配套设备等。（不包括农机具，农机具不署于不动产）。土地可种植各蔬菜、水果、经济作物、粮食作物大豆、玉米、小麦、冬小麦（沙斯卡川省是加拿大的主产区）等。加拿大土地税收管理 2007-02-12 | 作者： | 来源： | 【】【】【】加拿大土地税收管理一、加拿大土地税制加拿大在1873年首先开始征收梯地税制。由于土地是一种主要的不动产，加拿大的土地税是合并在不动产税内征收的。居民买了房与就同时买了土地，所以计税时也把房屋建筑物的等不动产包括在内。因此，加拿大的土地税也就是不动产税，其税包括两个部分：一部分时土地，另一部分是建筑物和其他不动产。在加拿大不动产税属于地方税种，由省级政府和市政府合法开征，收入全部

用于地方财政预算支出。通常市政府负责对市区内不动产进行征税，各省政府对市区外的不动产征税。不动产税是加拿大地方政府财政的主要收入来源之一。二、税种的设置和征收方式加拿大的不动产税是根据不同环节进行征税的，分别对土地的保有和转移进行征税。对土地保有的征税又包括对土地所有和出租进行征税，而对土地的转移则包括对转移行为本身和转移时所发生的增值进行课税。主要包括：（1）不动产保有税，即不动产税，由地产所有者每年按时缴纳；（2）不动产转让税；（3）营业性不动产税等。营业性不动产税是在不动产税外额外征收的一种不动产税，是仅次于不动产税的地方政府第二大税收来源。营业性不动产税是对不懂禅的占有者而不是对所有者征收的税。营业不动产税税基的确定，通常是不动产税的估价值和年租金总额。具体包括五种形式：按不动产评估值的一定百分比征收；按总租赁评估值的一定百分比征收；按面积征收；按储存能力征收；按总营业收入的一定百分比征收。不动产还涉及以下税收：（1）转让增值所得税。当卖房者在销售房产后，销售所得的增值部分，按照规定上所得税；（2）租金收入所得税，为房屋出租所得计入年收入，所应缴纳的税；（3）商品及服务税加拿大不动产的税收方式采用的是从价计征，主要是以土地及相应建筑物的价值或价格为课税标准所课征的不动产税。税基由政府来评估，政府估价一般用市场评估法。然而，由于重估的间隔不同、所采用的基准年份不同以及估价方法的差异等，同样不动产的估价会出现差别。在多数省，农业土地税都采用较优惠的估价标准。为了将评估的误差减到最低程度，各省都成立了专门的集中评估机构。三、税率的确定加拿大没有全国统一的不动产税税率，税率主要依据各地方政府的收支状况

加拿大历史与文化选修课作业

一、加拿大的历史溯源加拿大的历史是从印第安和爱斯基摩等原住民的历史开始的，10世纪以后，西欧的足迹才开始踏上这片土地。最初先是海盗来到加拿大东部，此后从欧洲人进行探险的时代开始一直到近现代，北美大陆的历史在此阶段迅速展开。 16世纪。法国人梦想发现并统治更多的疆域，扩展他们的贸易范围，并让世界各国信奉他们的信仰。加拿大原为印第安人与因纽特人居住地。 16 世纪沦为法、英殖民地，1756—1763年期间，英、法在加拿大爆发“七年战争”，法

国战败，而1763年的巴黎和约使加拿大正式成为英属殖民地。 1867年7月1日，英国议会通过了《BRITISH NORTH AMERICA [BNA] ACT OF 1867》（北美法律），正式承认加拿大自治权，以ONTARIO，QUEBEC，NOVA SCOTIA，NEW BRUNSWICK四省形成加拿大联邦，7月1日也被定为加拿大的国庆日。英将加拿大省、新不伦瑞克省和诺瓦斯科舍省合并为一个联邦，成为英国最早的自治领。此后，其它省也陆续加入联邦。 1882年4月17日，英女皇在OTTAWA 宣布加拿大在立法上脱离英国，并签署《加拿大宪法草案》即现行的加拿大宪法。 1926年，英国议会通过《威斯敏斯特法令》，承认加的“平等地位”，加始获外交独立权。 1931年，加拿大的内政外交正式脱离了英国的从属关系，得到了完全的自治权，成为英联邦成员国，其议会后也获得与英国议会平等的立法权。但仍无修宪权。 1945年加入国际联盟，并于1949年加入北大西洋公约组织，正式稳固了其在国际政治方面的地位。 1965年，加拿大制定了自己的国歌，国旗。 1982年，英国女王签署《加拿大宪法法案》，加议会获得立宪、修宪的全部权力。 1999-2000年3月NUNAVUT成为10个省，2个特区之后的第13个区域加入联邦。二、加拿大国名的由来 1535年，当时的法国国王弗朗索瓦一世命令航海家杰克斯·卡蒂埃（Jacques Cartier)去探寻“新世界”，以求找到一条通往印度的航道。卡蒂埃尔首次探险来到了圣劳伦斯海湾。这时他并不知道会在这里发现什么，但他希望这是大洋的一个分支，并是他通往远东征程的必经之路。于是他沿圣劳伦斯河逆流而上。然而他并没有到达所期盼的亚洲，却来到了魁北克（Québec)，当地的印第安人称它"Stadacona"。正是这时，Canada一词被写进了国家的历史。Canada一词源于印第安语的“Kanada”意为“群落”或“村庄”。卡蒂埃尔在向法王报告时，首次使用了“Canada”，来指他所到达的魁北克。

加拿大地理

Geographical Regions of Canada Atlantic Provinces大西洋省 Atlantic Provinces consist of New Brunswick新布伦瑞克, Nova Scotia新斯科舍, Prince Edward Island爱德华王子岛and Newfoundland纽芬兰. The Grand Banks, off the eastern shore of Newfoundland, form one of the world’s greatest fishing grounds.大浅滩是世界最著名的捕鱼区之一。 St. Lawrence-Great Lakes Province圣劳伦斯——五大湖区 As the most developed part of Canada, it includes the St. Lawrence Lowlands and the southern part of Quebec 魁北克省and Ontario安大略省. Ottawa, the capital city of Canada, is in the province of Ontario. Half of the populations of the capital are French-speaking and half are English-speaking.（渥太华是加拿大的首都，位于安大略省，一半人口说英语，一半人口说法语。） Quebec is the largest province in Canada with a population of about 6.5 million.（魁北克是加拿大最大的省，人口650万。）Quebec is different from other provinces of Canada because it has a strong French culture. It is the only predominately French-speaking territory in North America. In 1968, the Official Language Act made both French and English the official languages of the country.（魁北克与其他的省最大的不同是它有浓厚的法国文化，是北美洲唯一以法语为主要语言的地区。） The Canadian Shield加拿大地盾 It is a region of hills and lakes, which covers almost half of Canada. The Prairie Provinces大平原省 They lie in the west of Ontario and are famous for wheat production. The Province of British Columbia不列颠哥伦比亚省 It lies on the Pacific Coast of Canada. Vancouver is British Columbia’s largest city and the third largest city in Canada. It is the largest cargo port on the Pacific.（温哥华是不列颠哥伦比亚省最大的城市，也是加拿大的第三大城市，是太平洋最大的货运港。） Northern Provinces北部省 They take up four fifths of the country, which are bare, thinly settled.

加拿大签证用表(加拿大签证用表,可交互)

1Importer — name, address, and telephone no.

I hereby declare that the goods described herein were: Je certifie par les présentes que les marchandises désignées dans cette déclaration ont été : 18 I declare the information contained to be true and complete. Je déclare que les renseignements contenus dans la présente déclaration sont vrais et complets. 17TOTAL Customs duties Droits de douane Excise tax Taxe d'accise 40 Remarks - Remarques 22 Cargo control no. - N° de contr?le du fret 23 GST collected on transaction no. TPS recueillie sur la transaction n° Importer Importateur Signature The goods described herein are subject to CBSA control while in Canada and must be re-exported under CBSA supervision on or before the expiry date of the permit. On re-exportation both goods and permit must be presented for identification and comparison. Tant qu'elles sont au Canada, les marchandises décrites sur le formulaire sont assujetties au contr?le de l'ASFC et doivent être réexportées sous la surveillance de l'ASFC avant ou à la date d'échéance du permis. Lors de la réexportation, les marchandises et le permis doivent être présentés aux fins d'identification et de comparaison. THIS PORTION TO BE COMPLETED BY THE CBSA FOR ACQUITTAL PURPOSES - CETTE PARTIE DOIT êTRE REMPLIE PAR L'ASFC AUX FINS D'ACQUITTEMENT 28Examined by me and re-exported from Canada Vérifiées par moi et réexportées du Canada 29Duties paid under transaction no. Droits acquittés selon le n° de la transaction 30 Examined by me and shipped in bond to:Vérifiées par moi et expédiées en douane à : CBSA office - Bureau de l'ASFC Under En vertu Cargo control no. - N° de contr?le du fret 31Destroyed under supervision Détruites sous surveillance 33 Deposit accounted for on transaction no. Dép?t comptabilisé sur le n° de la transaction 35 Deposit returned by cheque no. Dép?t retourné par chèque n° 34 Dated - En date du 36 Dated - En date du 37 Accounting centre Centre de comptabilité 38 CBSA office stamp - Timbre du bureau de l'ASFC Agent Mandataire 26 CBSA office stamp - Timbre du bureau de l'ASFC 10 111314 FAILURE TO SURRENDER THIS TEMPORARY PERMIT ON LEAVING CANADA WILL FORFEIT THE DEPOSIT. FOR ADDITIONAL INFORMATION, SEE REVERSE SIDE.LE DéP?T SERA CONFISQUé SI CE PERMIS TEMPORAIRE N'EST PAS PRéSENTé EN QUITTANT LE CANADA. POUR PLUS DE RENSEIGNEMENTS, VOIR AU VERSO. 24 Make refund cheque payable to: émettre le chèque de remboursement à l'ordre de : Postal code - Code postal Name and address - Nom et adresse 25 Deposit - Consignation US $______________ X ________ = CAN $______________Cash Argent Cheque Chèque Bond Cautionnement No. N°___________________________ Where American funds have been tendered, the deposit will be adjusted according to the U.S. exchange rate at the time of banking,and therefore the actual Canadian dollar equivalent of the deposit may differ from the amount indicated. Lorsque des devises américaines sont présentées, le montant sera rajusté pour rendre compte du taux de change en vigueur au moment de la transaction bancaire, et par conséquent, l'équivalent du dép?t en dollars canadiens peut être différent du montant indiqué.All refunds will be made in Canadian currency by means of a Government of Canada cheque. Tous les remboursements seront faits en devises canadiennes au moyen d'un chèque du gouvernement du Canada.é.-U._____________$ X ________ = ______________$ CAN Value for duty Valeur en douane Tariff treatment Traitement tarifaire 15 Value for tax Valeur taxable 16 GST TPS Mandataire — nom, adresse et n° de téléphone Importateur — nom, adresse et n° de téléphone 6Authority - Autorisation 12Rate of duty Taux de droit 9 Classification no.N° de classement 7b Quantity Quantité 7a 8 Description Weight Poids Gross - Brut Net yyyy/mm/dd - aaaa/mm/jj yyyy/mm/dd - aaaa/mm/jj yyyy/mm/dd - aaaa/mm/jj

中国的照明节能标准及规范

中国的照明节能标准及规范赵建平张绍纲肖辉乾 (中国建筑科学研究院建筑物理所) 前言建设节约型社会已成为我国的一项重要国策，各行各业都要认真做好节能、节地、节材、节水工作。绿色建筑的定义：在建筑的全寿命周期内，最大限度地节约资源(节能、节地、节水、节材)、保护环境和减少污染，为人们提供健康、适用和高效的使用空间，与自然和谐共生的建筑。目标：实现“以人为本”、“人一建筑一自然”三者和谐统一的重要途径，也是我国实施21世纪可持续发展战略的重要组成部分。我国政府从基本国情出发，提出发展“节能省地型住宅和公共建筑”，主要内容是节能、节地、节水、节材与环境保护，注重以人为本，强调可持续发展。为此国家颁布了多项有关照明节能的法规、标准及规范。照明标准和法规是进行城市照明建设的依据。是评价照明工程设计方案是否节能的重要准则。必须按标准规范办事的原则应引起设计、建设和管理人员的高度重视。 1目前国家政策、法规 (1)《民用建筑节能条例》已于2008年10月1日起开始实施了，其中的第19条：“建筑的公共走廊、楼梯等部位，应当安装、使用节能灯具和电气控制装置。” (2)2009年5月18日，财政部、国家发展改革委发布《关于开展“节能产品惠民工程”的通知》(财建(2009)213号)，决定安排专项资金，采取财政补贴方式，支持高效节能产品的推广使用。 (3)《国务院办公厅关于深入开展全民节能行动的通知》国办发(2008)106号(08．8．1)。控制路灯和景观照明。在保证车辆、行人安全的前提下，合理开启和关闭路灯，试行间隔开灯，推广使用可再生能源路灯。在用电高峰时段，城市景观照明、娱乐场所霓虹灯等要减少用电。各级行政机关、公共场所应关闭不必要的夜间照明，除重大的庆祝活动外，一律关闭景观照明。 (4)《国务院关于进一步加强节油节电工作的通知》国发[2008]23号(08．8．1)加快淘汰低效照明产品、减少城市照明用电、加强照明节电管理。 (5)《高效照明产品推广财政补贴资金管理暂行办法》财建[2007]1027号财政补贴重点支持高效照明产品替代在用的白炽灯和其它低效照明产品，主要是普通照明用自镇流荧光灯、三基色双端直管荧光灯(T8、T5型)和金属卤化物灯、高压钠灯等电光源产品，半导体(LED)照明产品，以及必要的配套镇流器。国家采取间接补贴方式进行推广，即统一招标确定高效照明产品推广企业及协议供货价格，财政补贴资金补给中标企业，再由中标企业按中标协议供货价格减去财政补贴资金后的价格销售给终端用户，最终受益人是大宗用户和城乡居民。‘ (6)《“十一五"城市绿色照明工程规划纲要》建办城[2006]48号以2005年底为基数，年城市照明节电目标5％，5年(2006～2010年)累计节电25％。 (7)《关于进一步加强城市照明节电工作的通知》建城函[2005]234号 (8)《关于进一步加强城市照明管理促进节约用电工作的意见》建城函[2004]204号：国务院、建设部2004～2008年相继制定了10个有关照明节能的文件。 2光源能效标准 1997年，我国开始了照明产品能效标准的研究工作，并于1999年11月正式发布我国第一个照明产品能效标准GBl7896—1999《管型荧光灯镇流器能效限定值及节能评价值》。之后，我国加快了照明产品能效标准的研究、制定工作，先后组织研究制定了白镇流荧光灯、双端荧光灯、高压钠灯和金属卤化物灯以及高压钠灯镇流器、金属卤化物灯镇流器、单端荧光灯能效标准。到目前为止，我国己正式发布的照明产品能效标准已有8项，如表1所示，从数量和质量两方面讲，我国照明产品能效标准的研究水平已位居世界前列。

加拿大签证在职证明模板双语

在职证明尊敬的加拿大签证中心签证官：兹证明XX先生自XXXX年来我公司任职，职位是XXXX,他的月收入是人民币XXXX元。他将于2018年10月25日到2019年04月22日赴加拿大旅游。他的具体信息如下：此次旅游的所有费用均由他本人承担，我们保证他在加拿大旅游期间将会遵守当地的法律法规。我们也保证他将会按时回国并继续在我公司工作。特此证明! 单位名称：（盖章）单位地址：单位电话：经办人签名: 日期：

Certificate To: Can ada Applicati on Center Dear Visa Officers: This is to certify that Mr. _______ works in our company as ______________ since the year of ______ . His mon thly salary is RMB __________ . He will have a tour to Can ada from October 25th, 2018 to April 22nd, 2019. His information is listed as follows, All the travelli ng expe nses will be covered by himself. We hereby guara ntee that he will abide by all the laws and regulati ons duri ng his stay. We also guara ntee that he will be back to China on schedule and will con ti nue to work for our compa ny. Compa ny Name: (seal) Address: Tel: Sig nature of Man ager: Date:

A Survey of Canadian Culture,加拿大文化研究

A Survey of Canadian Culture This lecture tells us about beautiful According to the teacher lectures, I learned that Canada is a highly developed capitalist country, thanks to abundant natural resources and highly developed science and technology, make it become the world's highest quality of life, one of the most affluent society, most economically developed countries. Canada ranks among the best of education in terms, government transparency, social freedom, quality of life and economic freedom. Due to Canada is in the northern hemisphere. So the popular sport in Canada. Mostly related to snow, such as skiing, figure skating, speed skating, curling, rugby and so on. Canada has ten provinces and three regions, a population of about 35000000, of which the Chinese have about 15000000 people. The land area of about 9984670 square kilometers. The national flag is the Maple Leaf flag, Canada is also a maple tree. The main language is English and French. Ottawa is the capital and the largest city is Toronto. It is a beautiful country. There are some unique festivals, such as the Tulip Festival, Quebec Festival. The relationship between Canada and other countries, the relationship between Canada and the United States, in recent years, there are some conflicts, but mainly in the United States bordering parts of the territory. But most places have a very good relationship with the United states. After all, Canada and the United States have the longest defined boundary in the world. The friendship between China and Canada has a long history. by the end of eighteenth Century exported to Canada, Bethune, a great internationalist soldier who helped the Chinese Anti Japanese war in Canada, led the medical team to the front of the Anti Japanese struggle in China, and contributed his precious life to the cause of the liberation of the Chinese people. Concerning Canadian Culture, my interest is in the beautiful scenery, Vancouver city park green grass known as STANLEY Park, Queens Park etc. In fact, every city in Canada is a beautiful park.Also There are many beautiful landscapes, such as the beautiful University of British Columbia, Niagara Falls and many world heritage. The Canadian cultural atmosphere, Canada is a nation of immigrants, but the social relationship is very stable, people are willing to help each other. Here all the way of life are welcome. Compared with Chinese Culture,I understand that the Canadian culture is very different from Chinese culture. Although Canada and Chinese are multicultural countries. But Chinese diversified from fusion between different ethnic groups. And China history is far more than Canada. Canadian multiculturalism, when Europeans discovered the continent of America, many countries in the world who had moved here. It was because there were many people from different countries that made up the first inhabitants of Canada. So Canada became a diverse country with a

加拿大土壤标准

加拿大个人旅游签证申请表

加拿大主要城市气候分析

加拿大个人旅游签证手册

英美概况---加拿大历史

加拿大官网旅游签证_在职收入证明(中英文)

加拿大土地价格问题

加拿大历史与文化选修课作业

加拿大地理

加拿大签证用表(加拿大签证用表,可交互)

中国的照明节能标准及规范

加拿大签证在职证明模板双语

最新最全的节能标准规范

A Survey of Canadian Culture,加拿大文化研究