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本文(ASTM D6106-1997(2010) 3125 Standard Guide for Establishing Nomenclature of Groundwater Aquifers《地下蓄水层术语建立的标准指南》.pdf)为本站会员(progressking105)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ASTM D6106-1997(2010) 3125 Standard Guide for Establishing Nomenclature of Groundwater Aquifers《地下蓄水层术语建立的标准指南》.pdf

1、Designation: D6106 97 (Reapproved 2010)Standard Guide forEstablishing Nomenclature of Ground-Water Aquifers1This standard is issued under the fixed designation D6106; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of last

2、 revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This guide covers a series of options but does notspecify a course of action. It should not be used as the solecriterion o

3、r basis of comparison and does not replace or relieveprofessional judgement.1.2 This guide contains instructions and suggestions forauthors of ground-water (hydrogeologic) reports in assigningappropriately derived and formatted aquifer nomenclature.Discussed are the water-bearing units that may requ

4、ire nameidentification, which are, ranked from largest to smallest,aquifer system, aquifer, and zone. Guidance is given onchoosing the source of aquifer names, those are from lithologicterms, rock-stratigraphic units, and geographic names.1.3 Included are examples of comparison charts and tablesthat

5、 can be used to define the hydrogeologic framework.Illustrations of eleven different hypothetical aquifer settings arepresented to demonstrate the naming process.1.4 Categories of items not suggested as a source of aquifernames are reviewed because, although they should be avoided,they occur in publ

6、ished documents. These categories are thefollowing: time-stratigraphic names, relative position, alpha-numeric designations, depositional environment, depth of oc-currence, acronyms, and hydrologic conditions.1.5 Confining units are discussed with the suggestion thatthese units should not be named u

7、nless doing so clearlypromotes an understanding of a particular aquifer system.Suggested sources of names for confining units correspond tothose for aquifer names, which are lithologic terms, rock-stratigraphic units, and geographic names.1.6 It is suggested that in reports that involve hydrogeology

8、,the author should consider first not naming aquifers (see 6.2).1.7 Format and expression styles are assessed along with thegeneral cautions related to name selection of aquifers andconfining units.1.8 This guide is a modification of a previously publishedreport (1).21.9 This guide offers an organiz

9、ed collection of informationor a series of options and does not recommend a specificcourse of action. This guide cannot replace education orexperience and should be used in conjunction with professionaljudgment. Not all aspects of this guide may be applicable in allcircumstances. This guide is not i

10、ntended to represent orreplace the standard of care by which the adequacy of a givenprofessional service must be judged, nor should this guide beapplied without consideration of a projects many uniqueaspects. The word “Standard” in the title of this documentmeans only that the document has been appr

11、oved through theASTM consensus process.2. Referenced Documents2.1 ASTM Standards:3D653 Terminology Relating to Soil, Rock, and ContainedFluidsD1129 Terminology Relating to WaterD5409 Guide for Set of Data Elements to Describe aGround-Water Site; Part TwoPhysical DescriptorsD5434 Guide for Field Logg

12、ing of Subsurface Explorationsof Soil and RockD5474 Guide for Selection of Data Elements for Ground-Water Investigations3. Terminology3.1 Definitions: Except as discussed as follows, all defini-tions are in accordance with Terminologies D653 and D1129.The following terms are examined in detail in or

13、der to clarifythe method of assigning nomenclature to the aquifers andassociated units:3.2 IntroductionAquifers do not lend themselves to brief,neat, and simple definitions; therefore, a flexible hierarchy ofterms is used in these guidelines. The terms that are used forwater-yielding rocks from larg

14、est to smallest are: aquifersystem (2), aquifer (3), and zone (4). Confining units (3) arediscussed because of the stratigraphic relationship with thewater-bearing units.3.2.1 Parallelism between the hierarchy of terms for water-yielding rocks and rock-stratigraphic terms, namely, aquifer1This guide

15、 is under the jurisdiction ofASTM Committee D18 on Soil and Rockand is under the direct responsibility of Subcommittee D18.21 on Ground Water andVadose Zone Investigations.Current edition approved July 1, 2010. Published September 2010. Originallyapproved in 1997. Last previous edition approved in 2

16、004 as D610697(2004).DOI: 10.1520/D6106-97R10.2The boldface numbers in parentheses refer to the list of references at the end ofthis standard.3For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards vol

17、ume information, refer to the standards Document Summary page onthe ASTM website.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.system (group), aquifer (formation), and zone (member),should be avoided because water-yielding rocks ca

18、n cross theboundaries of geologic units or constitute only part of ageologic unit. The scale of the study also may determine thebest usage. For example, at the local scale, an aquifer systemcould be defined totally within a single formation, and at theregional scale, a formation or group could be to

19、tally within andonly a part of a single aquifer or an aquifer system. Again, theguidelines for aquifer nomenclature must remain flexible tomeet a variety of hydrogeologic scales and settings.3.2.2 A discussion of the terms aquifer, aquifer system,zone, and confining unit is provided here to give aut

20、hors acommon reference base. Although complete agreement onthese definitions has not been achieved, the terms are adequateto transfer knowledge from authors to readers of reports. It isnot the purpose of these guidelines to formally redefine theterms or to define new terms to take their place.3.3 De

21、finitions of Terms Specific to This Standard:3.3.1 aquifer, nThis term probably has more shades ofmeaning than any other term in hydrology (5), see TerminologyD653. It can mean different things to different people anddifferent things to the same person at different times.3.3.1.1 DiscussionMeinzer (5

22、) defined an aquifer as “arock formation or stratum that will yield water in sufficientquantity to be of consequence as a source of supply is called anaquifer, or simply a water-bearing formation, water-bearingstratum,orwater-bearer. It is water-bearing, not in the sense ofholding water, but in the

23、sense of carrying or conveying water.”3.3.1.2 Lohman and others (3) refined Meinzers definitionof an aquifer as “a formation, group of formations, or part of aformation that contains sufficient saturated permeable materialto yield significant quantities of water to wells and springs.”3.3.1.3 Both of

24、 these definitions imply that the aquifer isbounded by or is included within the formation(s) (or stratum),but the concept of the aquifer extending across formationalboundaries is not indicated explicitly. In many local studiescovering a few tens to a few hundred square miles, the aquiferand the for

25、mation may be the same. In these studies, fewproblems may exist in defining the aquifer. However, since thelate 1970s, studies of regional aquifers that may cover hun-dreds of thousands of square miles have been made under theRegional Aquifer-System Analysis (RASA)4Program. Resultsfrom several of th

26、e RASA studies have shown that regionalaquifers may include numerous formations and rock types andthat the aquifers cut across formational and lithologic bound-aries so that no one formation is completely representative ofthe aquifer.3.3.1.4 In studies of regional scope, the shape and theboundaries

27、of the permeable rocks that form the aquifer havegreater importance to understanding the flow system than dothe individual formational boundaries. A definition that placesless emphasis on the formal term formation (6) and more onpermeable rocks has merit. For example, aquifer is defined inthe Glossa

28、ry of Geology (7) as “a body of rock that issufficiently permeable to conduct ground water and to yieldeconomically significant quantities of water to wells andsprings.”3.3.1.5 Regardless of the fine points in any definition,delineating permeable rocks should be the major goal ofhydrogeologists in m

29、apping and describing an aquifer. By thesame token, detailed knowledge of the stratigraphic units andpost-depositional processes, such as solution, cementation,folding, and faulting, are essential in determining where theboundaries of the aquifer are located and in understanding theflow system. In a

30、ddition, hydraulic properties (hydraulic con-ductivity and storage coefficient) throughout the aquifer usu-ally are not determined directly but are estimated by indirectmeans, such as aquifer tests, analyses of drill cuttings andcores, borehole geophysical logging, and surface geophysicalsurveys.3.3

31、.1.6 In many situations, hydrologic estimates and ex-trapolations can be made on the basis of rock type alonewithout any determination of hydrologic properties. For ex-ample, a wide-spread, thick clay separating two sand unitstentatively could be designated as a confining unit on the basisof geologi

32、sts logs and borehole geophysical logs alone with-out any hydrologic data.3.3.2 aquifer system, nPoland and others (2) define anaquifer system as “a heterogeneous body of intercalatedpermeable and poorly permeable material that functions re-gionally as a water-yielding hydraulic unit; it comprises t

33、wo ormore permeable beds (aquifers) separated at least locally byaquitards (confining units) that impede ground-water move-ment but do not greatly affect the regional hydraulic continuityof the system.”3.3.2.1 DiscussionThe definition could be more general ifthe term aquifers were used in place of p

34、ermeable beds. Bedimplies a single stratigraphic unit, whereas, the individualaquifer could include or cross many beds.3.3.2.2 Confining unit should be used instead of aquitardbecause the definition of confining unit is broad enough toinclude varying degrees of leakiness.3.3.2.3 The hierarchy of aqu

35、ifer and aquifer-system namesmay not always be consistent in practice. Because of differ-ences in scales of investigations, individual aquifers may becombined into a single aquifer system, which may be only apart of another aquifer system over a larger area. Authors havethe responsibility to explain

36、 these relationships clearly withcomparison charts and descriptions in the text.3.3.3 confining unit, nconfining bed was defined by Lo-hman and others (3) as “ . . . a term which will now supplantthe terms aquiclude, aquitard, and aquifuge in reports of theU.S. Geological Survey and is defined as a

37、body of imperme-able material stratigraphically adjacent to one or more aquifers.In nature, however, its hydraulic conductivity may range fromnearly zero to some value distinctly lower than that of theaquifer. Its conductivity relative to that of the aquifer itconfines should be specified or indicat

38、ed by a suitable modifier,such as slightly permeable or moderately permeable.”3.3.3.1 DiscussionAlthough the Lohman and others (3)definition of confining bed is descriptive and should be used,4RASA, Regional Aquifer-System Analysis Program, a systematic study of anumber of regional ground-water syst

39、ems that represent a significant part of thewater supply of the United States. These studies are managed by the WaterResources Division of the U.S. Geological Survey.D6106 97 (2010)2the term confining unit is more general and appropriate thanconfining bed, especially where more than a single bed mak

40、esup the confining unit.3.3.3.2 The term bed is not correct usage for a thicksequence of stratigraphic units that could be of member orformation rank. Bed is particularly inappropriate when used forintrusive igneous rocks beneath an aquifer. The term bed has aformal definition in the 1983 North Amer

41、ican StratigraphicCode (6) and should not be used in definitions of aquifernomenclature.3.3.3.3 Many confining units are leaky and in some areas,under natural conditions, may contribute significant amounts ofwater to the aquifers they confine, and even larger quantities ofwater as heads are lowered

42、in the aquifer by pumping. In areaswhere withdrawals from aquifers have caused large declines inhead, considerable amounts of water may be derived fromwater stored in the confining unit.3.3.3.4 Poland and others (2) retained the terms aquicludeand aquitard in their definitions related to studies of

43、themechanics of aquifer systems and land subsidence due to fluidwithdrawal. An aquiclude was defined as a body of saturatedbut relatively impermeable material that is characterized byvery low values of leakance (the ratio of vertical hydraulicconductivity to thickness) and transmits negligible inter

44、aquiferflow.3.3.3.5 An aquitard is a saturated poorly permeable bed thathas values of leakance that range from relatively low torelatively high. Where an aquitard is sufficiently thick, it mayform an important ground-water storage unit.3.3.3.6 The general term confining unit is preferable toaquitard

45、, aquiclude, and aquifuge, as recommended by Lo-hman and others (3).3.3.3.7 Estimation of the leakiness of the confining unitshould be discussed if this hydrologic information is available.3.3.4 erathem, na geologic time term, used in this guide,is defined as the largest formal chronostratigraphic u

46、nit gener-ally recognized, next in rank above system; the rocks formedduring the era of geologic time, such as the Mesozoic Erathemcomposed of the Triassic System, the Jurassic System, and theCretaceous System (7).3.3.5 zone, nthe term zone may be used to subdivide anaquifer for the purpose of delin

47、eating a particular hydrologiccharacteristic that is not typical of the entire aquifer. Forexample, the Fernandina permeable zone is a high-permeability subunit of the Lower Floridan aquifer (4). Thezone consists of vuggy, locally cavernous limestone and istraceable for as much as 100 miles in coast

48、al Georgia andFlorida. The permeability of the zone greatly exceeds that ofmost of the Lower Floridan aquifer.3.4 Terms to Be AvoidedThe use of terms that are in-tended to be synonymous with aquifer or aquifer system shouldbe avoided. Terms, such as hydrofer or aquiformation shouldnot be used in lie

49、u of aquifer; aquigroup should not be used inplace of aquifer system.3.4.1 The term aquifer may be less precise than we wouldlike, but it has been used and accepted widely in the hydrologicliterature since it was defined originally.3.4.2 Coining new terms for aquifer and aquifer system thateither are synonyms or defined with slightly different meaningis not an advancement. It only creates confusion especiallyamong people who are not hydrogeologists. Use of the termaquiformation also infers an equivalence between aquifer andformation that is not always correct.4. Signifi

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