Wheeler v. R., 97 DTC 1156, [1997] 2 CTC 2960 (TCC)

Lamarre T .C J .:

These are appeals from tax assessments made by the Minister of National Revenue (“Minister”) in respect of the appellants’ 1988 taxation year, whereby the Minister denied deductions on account of the Canadian Exploration Expenses (“CEE”), renounced to them by Benchmark-One Hydrocarbons Inc. (“Benchmark”), which deductions were claimed by each of them in computing his income pursuant to section 66.1 of the Income Tax Act (“Act”). The appeals were heard on common evidence.

Facts

The facts admitted by both parties are as follows. Benchmark was incorporated on August 31, 1988 under the laws of the Province of Ontario. On September 1, 1988, Benchmark entered into a joint venture agreement with Canadian Futurity Oils Ltd. (“Futurity”) pursuant to which:

(i) Futurity agreed to enter into agreements relating to the acquisition of oil and gas properties in Western Canada; and

(ii) Benchmark agreed to incur exploration expenditures in order to acquire interests in Futurity’s and third parties’ oil and gas properties.

Futurity entered into a participation agreement with Trilogy Resource Corporation (“Trilogy”) pursuant to which Futurity and Benchmark were to earn a participating interest in certain oil and gas properties including oil well 10-24-43-12W5M in the Brazeau area of Alberta (“well 10-24”), in exchange for sharing the costs of drilling the wells. Under this agreement, Trilogy was to act as the operator for well 10-24.

On December 12, 1988, Benchmark filed with the Minister a T100 form together with an offering memorandum relating to an offering of common shares (“flow-through shares”) wherein it agreed to incur expenditures qualifying as CEE equal to the full subscription price of such shares and to renounce the said CEE to the subscribers.

Between December 12, 1988 and December 31, 1988, 20 individuals subscribed for a total of 500,000 flow-through shares of Benchmark at a subscription price of $1.00 per share. The appellants subscribed for 111,000 of those shares.

By February 28, 1989, Benchmark had expended $500,000 purportedly qualifying as CEE, of which amount $100,000 related to expenses incurred in drilling well 10-24. On March 1, 1989, Benchmark filed forms with the Minister purporting to renounce $500,000 of CEE to the 20 subscribers. Of that amount, $111,000 was renounced to the appellants. According to the respondent, the $100,000 of expenditures in relation to well 10-24 did not constitute CEE on the basis that these expenditures did not result in the discovery of a natural accumulation of petroleum or natural gas and the well was not abandoned in 1988 or within six months of the end of 1988, which requirements must be met for the expenditures to qualify as CEE under subparagraph 66.1(6)(tz)(ii.l) of the Act. The appellants Wheeler and Hodge’s portion of the amount of $100,000 in question was $20,000 each whereas the appellant Hepburn’s portion was $60,000.

Issue

The issue is whether the amounts expended by Benchmark in respect of well 10-24 and renounced to the appellants through the flow-through share provisions qualify as CEE as described in clause 66.1(6)(a)(11.1)(A) of the Act. The parties agree that this issue will be resolved by determining whether well 10-24 resulted in the discovery of a natural accumulation of petroleum or natural gas.

Clause 66.1(6)(tf)(ii.l)(A) states:

“Canadian exploration expense”. — Canadian exploration expense of a taxpayer means any expense incurred after May 6, 1974 that is...

(11.1) any expense incurred by him after May 6, 1987 and in a taxation year of the taxpayer in drilling or completing an oil or gas well in Canada … if

(A) the well resulted in the discovery of a natural accumulation of petroleum or natural gas and the discovery occurred at any time before six months after the end of the year.

Counsel’s Submissions

The respondent submits that well 10-24 cannot meet the requirements of clause 66.1(6)(ü)(ii.l)(A) because it did not result in the discovery of a natural accumulation of petroleum or natural gas. To support her position, the respondent relies on:

(i) the conclusion reached by the Alberta Energy and Utilities Board (“EUB”) (formerly the Energy Resources Conservation Board “ERCB”) that a new hydrocarbon accumulation had not been discovered and the EUB’s refusal to assign proven reserves to the well; and

(ii) an independent review of the well data by Mr. James A. Davidson, a geologist with the National Energy Board (“NEB”), which confirmed the findings of the EUB.

The appellants are of the view that well 10-24 did meet the requirements of clause 66.1(6)(a)(ii.l)(A). They submit that in interpreting the meaning of the phrase “resulted in the discovery of a natural accumulation of petroleum or natural gas” in this clause, a determination must be made as to whether the terms “discovery” and “accumulation” were intended to have their ordinary meaning or rather to be given certain meanings peculiar to the “industry” or of a “technical” nature.

They take the position that based on principles of statutory interpretation the terms “discovery” and “accumulation” should be given their plain and ordinary dictionary meanings such that, at most, clause 66.1(6)(tf)(ii.l)(A) would add a requirement that the well have the ability to produce petroleum or natural gas. The appellants submit that the definition used by the respondent and the EUB, which adds an economic component (the appellants would have to prove that well 10-24 had a capability for the economic production of petroleum or natural gas), should not be accepted. Thus, according to the appellants, a discovery would be the finding of something that was not previously known to exist and, at most, the appellants would simply have to prove that oil or gas could be extracted from the ground and that the well was capable of production even if the well turned out not to be economically viable.

The appellants further submit that Mr. Davidson is not qualified as an expert witness to testify in support of the respondent’s evidence, but if he is so qualified, the weight to be attached to his evidence should be slight. The appellants argue that Mr. Davidson has little or no experience in reviewing certain critical factors such as the geological well samples, the core reports, the open well logs as well as the production testing and well completion results. Accordingly, the appellants take the position that Mr. Davidson is not a person qualified to make any determination as to whether well 10-24 resulted in the discovery of a natural accumulation of petroleum or natural gas.

Analysis

Purpose of Legislation

The Act provides taxpayers with deductions for pre-production expenses incurred in the oil and gas industry which otherwise would not be deductible. These expenses are classified either as CEE defined in paragraph 66.1(6)(æ) of the Act, which are 100% deductible in the year, or as Canadian Development Expenses (“CDE”) defined in paragraph 66.2(5)(a) of the Act, deductible at the rate of 30% per year on a declining basis. The expenses for drilling or completing an oil or gas well constitute CDE pursuant to clause 66.2(5)(a)(i)(B) unless they meet the requirements of subparagraph 66.1(6)(a)(ii) (for expenses incurred before April 1987) or subparagraph 66.1(6)(fl)(ii.l) (for expenses incurred after March 1987), in which case they can be deducted as CEE.

The provisions dealing with exploration and development expenses have changed frequently in recent years. The definition of CEE has been expanded and developed as a means of encouraging certain activities by making the cost of those activities 100% deductible on a current basis. [1] According to one author, [2] “[t]he Government and the oil and gas industry discussed the appropriate cut-off points between [CEE] and [CDE]; the result of which is a new definition of [CEE] effective April 1, 1987.” The Department of Finance Technical Notes to the Notice of Ways and Means Motion, dated June 11, 1986 and October 31, 1986 comment as follows:

Paragraph 66.1(6)(a) of the Act provides the definition of “Canadian exploration expense” (CEE). Subparagraphs (1.1) and (11.2) thereof describe the oil and gas drilling expenses incurred after 1985 that are included in that definition. The changes to this definition as announced by the Minister of Finance on December 31, 1985 and March 27, 1986 are intended to clarify the distinction between exploration and development expenses.

History and statutory context of clause 66.1(6)(a)(ii.l)(A)

Subparagraphs 66.l(6)(a)(ii) and 66.1(6)(a)(ii.l) read as follows in 1988:

Paragraph 66.1(6)(«)

“Canadian exploration expense” of a taxpayer means any expense incurred after May 6, 1974 that is

(ii) any expense incurred before April, 1987 in drilling or completing an oil or gas well in Canada or in building a temporary access road to, or preparing a site in respect of, any such well,

(A) incurred by him in the year, or

	(B)	incurred by him in any previous year and included by him in
		computing his Canadian development expense for a previous
		taxation year,
	if, within six months after the end of the year, the drilling of the well is
	completed and
	(C)	it is determined that the well is the first well capable of produc
		tion in commercial quantities from an accumulation of petro
		leum or natural gas (other than a mineral resource) not previ
		ously known to exist, or
	(D)	it is reasonable to expect that the well will not come into pro
		duction in commercial quantities within twelve months of its
		completion,
(ii.l)	any expense incurred by him after March, 1987 and in a taxation year
	of the taxpayer in drilling or completing an oil or gas well in Canada or
	in building a temporary access road to, or preparing a site in respect of,
	any such well if
	(A)	the well resulted in the discovery of a natural accumulation of
		petroleum or natural gas and the discovery occurred at any time
		before six months after the end of the year,
	(B)	the well is abandoned in the year or within six months after the
		end of the year without ever having produced otherwise than
		for specified purposes,
	(C)	the period of 24-months commencing on the day of completion
		of the drilling of the well ends in the year, the expense was
		incurred within that period and in the year and the well has not
		within that period produced otherwise than for specified pur
		poses, or
	(D)	a certificate in prescribed form in respect of the well has been
		filed with the Minister on or before the day that is 60 days after
		the end of the calendar year in which the drilling of the well has
		commenced,
		(I)	the aggregate of expenses incurred and to be incurred
			in drilling and completing the well, in building a tem
			porary access road to the well and in preparing the site
			in respect of the well will exceed $5,000,000, and
		(II)	the well will not produce, otherwise than for a specified
			purpose, within the period of 24 months commencing
			on the day on which the drilling of the well is com
			pleted, [emphasis mine]

a) «frais d’exploration au Canada» d’un contribuable s’entend des dépenses suivantes engagées après le 6 mai 1974:

(ii)	une dépense d’une part engagée avant avril 1987 pour le forage ou
	l’achèvement d’un puits de pétrole ou de gaz au Canada, la construction
	d’une route d’accès temporaire au puits ou la préparation d’un emplace
	ment pour un tel puits, et d’autre part engagée par le contribuable
	(A)	soit dans l’année,
	(B)	soit dans une année antérieure si elle est incluse par le contribu
		able dans le calcul de ses frais d’aménagement au Canada pour
		une année d’imposition antérieure,
	si, dans les six mois suivant la fin de l’année, le forage du puits est
	achevé et
	(C)	qu’il soit établi que le puits est le premier susceptible d’une
		production en quantités commerciales à partir d’un gisement de
		pétrole ou de gaz naturel (à l’exception d’une ressource minér
		ale) jusque-là inconnu, ou
	(D)	qu’il soit raisonnable de s’attendre à ce que le puits ne produise
		pas de quantités commerciales dans les douze mois de son
		achèvement,
(11.1)	une dépense engagée par le contribuable après mars 1987 et dans une
	année d’imposition du contribuable, pour le forage ou l’achèvement
	d’un puits de pétrole ou de gaz au Canada, la construction d’une route
	d’accès temporaire au puits ou la préparation d’un emplacement pour un
	tel puits, à condition, selon le cas,
	(A)	que le puits soit la cause de la découverte, à une date antérieure
		à la période de six mois suivant la fin de l’année, d’un gisement
		naturel de pétrole ou de gaz naturel,
	(B)	que le puits soit abandonné dans l’année ou dans les six mois
		suivant la fin de l’année sans avoir jamais produit de pétrole ou
		de gaz sinon à une fin admise,
	(C)	que le terme de la période de 24 mois commençant le jour
		d’achèvement du forage du puits tombe dans l’année, que la
		dépense soit engagée durant cette période et dans l’année et que
		le puits n’ait pas produit de pétrole ou de gaz durant cette péri
		ode sinon à une fin admise,
	(D)	que soit produite au ministre, au plus tard six mois après la fin
		de l’année d’imposition du contribuable dans laquelle le forage
		du puits a commencé, une attestation délivrée par le ministre de
		l’Énergie, des Mines et des Ressources portant que, compte

tenu des éléments de preuve qui lui ont été présentées, il est convaincu:

(I) d’une part, que le total des dépenses engagées et à engager pour le forage ou l’achèvement du puits, la construction d’une route d’accès temporaire au puits et la préparation d’un emplacement pour le puits dépassera 5 000 000 $,

(II) d’autre part, que le puits ne produira pas de pétrole ou de gaz sinon à une fin admise dans la période de 24 mois commençant à la date où le forage du puits est terminé,

Prior to its amendment in 1986, subparagraph 66.1(6)(a)(ii.l) read:

66.7(6)(tz)(/Z.7) any expense incurred after 1985 in drilling or completing an oil or gas well in Canada or in building a temporary access road to, or preparing a site in respect of, any such well,

(A) incurred by him in the year, or

(B) incurred by him in any previous year and included by him in computing his Canadian development expense for a previous taxation year,

if drilling of the well is completed within six months after the end of the year and the well is abandoned within six months after the end of the year and within twelve months after the drilling of the well is completed,

66.1(6)(a)(ti.1) une dépense supportée après 1985 pour le forage ou l’achèvement d’un puits de pétrole ou de gaz au Canada, la construction d’une route d’accès temporaire au puits ou la préparation d’un emplacement à l’égard d’un tel puits,

(A) supportée par lui dans l’année, ou

(B) supportée par lui dans toute année précédente et incluse par lui lors du calcul de ses frais d’aménagement au Canada pour une année d’imposition antérieure,

si le forage du puits est terminé dans les six mois suivant la fin de l’année et si le puits est abandonné dans les six mois suivant la fin de l’année et dans les douze mois de son achèvement,

The pre-1986 version of subparagraph 66.1(6)(tz)(ii.l) merely required that the drilling be completed and the well abandoned within six months after the end of the year. The amended version provides another alternative: now, CEE may be claimed in a year if, within six months of the end of the year, either the well results in a discovery of a natural accumulation of oil or gas or the well is abandoned. This amendment has added the terms “dis-

1997-06-05

covery” and “natural accumulation” which replace a more general drilling requirement; obviously, it is intended that something more than mere drilling be present.

Counsel for the appellants submits that “discovery” should be taken to mean capable of production in any quantity, regardless of how minimal, given that subparagraph 66.1(6)(a)(11.1) refers to a discovery, rather than a discovery capable of production in commercial quantities, a qualification which specifically appears elsewhere in the CEE provisions. According to counsel, the word “discovery” appears more likely to have been specifically intended to be substituted for the phrase “not previously known to exist” in clause 66.1(6)(«)(ii)(C).

Counsel for the respondent takes it as having been settled that the terms used in the Act must be interpreted in accordance with their specialized meanings in the industry. She submits that the use of the word “discovery” within the industry presumes a capability of commercial production, particularly when linked to the word “accumulation”.

Although the meaning within the industry is helpful in interpreting a provision of the Act, such meaning must be determined to be correct in the context of the provisions of the Act?. [3] In Nova, an Alberta Corporation v. The Queen, [4] the Federal Court of Appeal had to determine the meaning, for capital cost allowance purposes, of the word “pipeline” as used in the Income Tax Regulations. In confirming that the trial judge was correct in considering the meaning ascribed to the term by those involved in the oil and gas industry, Urie J. said at p. 6391:

Dictionary meanings are, of course, relevant, as other aids to construction just as the evidence of those conversant with the industry provides assistance to the ultimate arbiter, the Court…

...the dictionary meanings to which both he (the trial judge) and this Court were referred varied sufficiently that they could fairly be described as inconclusive. He was, therefore, entitled to accord those meanings little weight and to accept evidence of the Respondent’s experts as persons familiar with the subject, ....

In the present case, I must determine whether there was a discovery of a natural accumulation of petroleum or natural gas within the meaning of clause 66.1(6)(a)(ii.1)(A) of the Act. I agree with counsel for the appellants that these words are to be construed in the context of the statute as a whole, [5] and, in the words of E. A. Driedger in Construction of Statutes: [6]

...the words of an Act are to be read in their entire context and in their grammatical and ordinary sense harmoniously with the scheme of the Act, the object of the Act, and the intention of Parliament...

However, I also agree with MacKay J. in Ora Del Norte, S.A. v. The Queen J [7] when he says that “the use of terminology used in the industry may be significant where the Income Tax Act does not itself define words that it uses”. In the present instance, neither the expression “the discovery of a natural accumulation of petroleum or natural gas” as a whole nor the words “discovery” or “accumulation” taken individually are defined in the Act. Evidence of usage within the industry will therefore be of assistance in interpreting those words as used in the statute. This kind of evidence may be presented by experts. In R. v. Mohan, [8] Sopinka J. expressed himself as follows:

This pre-condition [the necessity of an expert witness to assist the trier of fact] is often expressed in terms as to whether the evidence would be helpful to the trier of fact. The word “helpful” is not quite appropriate and sets too low a standard. However, I would not judge necessity by too strict a standard. What is required is that the opinion be necessary in the sense that it provide information “which is likely to be outside the experience and knowledge of a judge or jury”: as quoted by Dickson J. in R. v. Abbey, supra. [9] As stated by Dickson J., the evidence must be necessary to enable the trier of fact to appreciate the matters in issue due to their technical nature. In Kelliher (Village of) v. Smith, (1931) S.C.R. 672, at p. 684, this Court, quoting from Beven on Negligence (4th ed. 1928), at p. 141, stated that in order for expert evidence to be admissible, “the subject-matter of the inquiry must be such that ordinary people are unlikely to form a correct judgment about it, if unassisted by persons with special knowledge”.

This being said, I have now to resolve the question raised by the appellants as to the qualification of the respondent’s expert, Mr. Davidson. Qualification of Mr. Davidson as an expert witness

The expert’s usefulness in stating his opinion and conclusions on a scientific and technical issue is circumscribed by the limits of his own knowledge. The test of expertness is described as follows in The Law of Evidence in Canada: [10] ®.

The test of expertness so far as the law of evidence is concerned is skill in the field in which the witness’ opinion is sought. The admissibility of such evidence does not depend upon the means by which the skill was acquired. As long as the court is satisfied that the witness is sufficiently experienced in the subject-matter at issue, the court will not be concerned with whether his or her skill was derived from specific studies or by practical training, although that may affect the weight to be given to the evidence.

Therefore, and as was mentioned by McLachlin J. in the decision of the Supreme Court of Canada in R. v. Marquard: [11]

The only requirement for the admission of expert opinion is that the “expert witness possesses special knowledge and experience going beyond that of the trier of fact”: R. v. Béland, (1987) 2 S.C.R. 398, at p. 415. Deficiencies in the expertise go to weight, not admissibility.

Here, Mr. Davidson was asked to comment on the statement of the appellants’ expert witness regarding well 10-24 and to give his opinion on whether well 10-24 represents “the discovery of a natural accumulation of petroleum or natural gas”. According to his biographical résumé, Mr. Davidson graduated from the University of Manitoba with an honours Bachelor of Science degree in Geology in 1977. He began his career in the petroleum industry doing work consisting in calculating reserves available in oil and gas pools, primarily in eastern Alberta. He joined Esso Resources in the fall of 1978 where he stayed for three years and worked in that company’s Reservoir Geology Division in Alberta. He worked as a geologist with the Newfoundland government for two years and then with the Canadian Oil and Gas Lands Administration (COGLA) in Ottawa where he performed pool studies to determine reserves on the mainland of the Yukon Territory. In 1985, he joined the NEB in Calgary, where he worked in the area of reserves existing in pools in western Canada. In December 1994, he was loaned to the EUB to do geological analysis on new wells as part of the EUB-NEB joint database project.

The appellants challenge the expertise of Mr. Davidson on the basis that he lacks experience as a well-site geologist (in his testimony, Mr. Davidson admitted that inhis career he only visited two well sites) and therefore would not be qualified to analyze the well-site geologist’s report (the core and log data reports) or the production testing and well completion results. Furthermore, counsel argues that Mr. Davidson is neither a petrophysicist, (a recognized expert in log analysis and interpretation) nor a professional geologist in Alberta so designated by the Association of Professional Engineers, Geologists and Geophysicists of Alberta.

On this latter point, Mr. Davidson testified that he used to be a member of this Association and was granted professional geologist’s status, but he stopped paying the annual dues when he first moved to Newfoundland as membership in the Association was no longer relevant. When he went back to Alberta, he started to work for the government and it was not a requirement that he belong to the Association. Mr. Davidson mentioned that he was however qualified to work in the industry and only needed to pay the required dues to regain his membership. I find that non-membership in the Association is not a good argument for disqualifying Mr. Davidson as an expert as long as he can demonstrate that he has expertise in the field.

Based on the evidence, I am of the opinion that Mr. Davidson is certainly qualified to give an expert opinion in the present case. His background in geology is no less relevant than that of the appellants’ expert. Even though Mr. Davidson only went to well sites twice and is not qualified as a petrophysicist, I am satisfied that with his knowledge as a geologist he has more than enough experience to interpret log data, which is crucial in determining if there was a discovery of a natural accumulation of petroleum or natural gas in the well.

His ability to analyze the production testing, the well completion results and the core reports goes only to the weight I will give to his opinion and does not negate his competence to give an expert opinion. As was stated by McLachlin J. in R. v. Marquardt [12]

Important as the initial qualification of an expert witness may be, it would be overly technical to reject expert evidence simply because the witness ventures an opinion beyond the area of expertise in which he or she has been qualified.

Meaning of “discovery of a natural accumulation of petroleum or natural gas"

From the submissions of the respondent’s counsel and Mr. Davidson’s testimony and documents filed, [13] it is clear that their interpretation of what constitutes a discovery is an accumulation of petroleum or natural gas that is based on the definition given in the industry of what they call “established reserves”, which term is defined as follows: [14]

Established Reserves: Those reserves recoverable under current technology and present and anticipated economic conditions, specifically proved by drilling, testing, or production; plus that judgement portion of contiguous recoverable reserves that are interpreted from geological, geophysical, or similar information, with reasonable certainty to exist.

The terms “reserve”, “reserves”, “reservoir” and “pool” are defined as follows in the industry: [15]

Manual of Oil & Gas Terms [16]

reserve: That portion of the identified resource from which a usable energy commodity can be economically and legally extracted at the time of determination.

reserves'. The unproduced but recoverable oil and/or gas in place in a formation which has been proved by production.

reservoir: A porous, permeable sedimentary rock containing commercial quantities of oil or gas. Three types of reservoirs are encountered: (a) Structural Trap; (b) Stratigraphic Trap, and (c) Combination Trap. The reservoir is formed when escape of the oil or gas is prevented by surrounding layers of impervious rock.

pool: An underground reservoir containing or appearing to contain a common accumulation of oil and natural gas. A zone of a structure which is completely separated from any other zone in the same structure is a pool.

Dictionary of Geological Terms [17]

reserve: Petroleum or natural gas discovered, developed, and producible, but not yet produced.

reservoir: A natural underground container of liquids, such as oil or water, and gases. In general, such reservoirs were formed by local deformation of strata, by changes of porosity, and by intrusions. These, however, are classifications in the broadest sense.

oil pool: An accumulation of oil in sedimentary rock that yields petroleum on drilling. The oil occurs in the pores of the rock and is not a pool or pond in the ordinary sense of these words.

AGI Glossary [18]

reserves: Identified resources of fuel-bearing rock from which the fuel can be extracted profitably with existing technology and under present economic conditions.

reservoir (petroleum): (a) A subsurface volume of rock that has sufficient porosity and permeability to permit the accumulation of crude oil or natural gas under adequate trap conditions, (b) A pool of gas or oil.

oil pool: A subsurface accumulation of petroleum that will yield crude oil in economic quantities.

Under these definitions, there is clearly a requirement that the drilling, testing or production tests show that the well in question can be economically viable. As regards this test (and counsel for the appellants seemed to agree on this as he did not even try to argue that well 10-24 could ever satisfy the “anticipated economic” conditions requirement of the “established reserves” definition enunciated by the ERCB), the evidence shows that well 10-24 has not proved to be economically viable.

However, the terms the legislator used in the Act are neither “established reserves” nor “oil pool” nor “reservoir” but rather “the discovery of a natural accumulation of petroleum or natural gas”. In Petroleum Fiscal Systems In Canada, Department of Energy, Mines and Resources (August 1991), which deals with the CEE, we find at page 16 that:

Canadian exploration expenses (CEE) includes costs incurred at two stages of play development:

i) all geological, geophysical and geochemical activities for determining the existence, location, extent or quality of an oil or gas accumulation; and

ii) costs incurred in drilling or completing a well, building a temporary access road or preparing the well site, if:

(a) the well results in the discovery of a new accumulation of oil or natural gas (i.e, the discovery well);

(b) the well is abandoned without ever having produced commercially (i.e, a dry hole);

(c) the well has not produced commercially within 24 months after completion of drilling (i.e, a shut-in well); or

(d) the well is expected to have costs in excess of $5 million and not to produce commercially within 24 months (i.e, a high-cost well) as certified by the Minister of Energy, Mines and Resources.

It suggests that the expression “discovery of a natural accumulation of petroleum or natural gas” would be akin to “discovery well” in industry terms. The terms “discovery” and “discovery well” are defined as follows in the industry:

AGI Glossary:

discovery well: The first well to encounter gas or oil in a hitherto unproven area or at a hitherto unproductive depth; a successful wildcat, outpost well, deeper- pool test, or shallower-pool test.

Dictionary of Geological Terms:

Discovery well: A well discovering oil or gas in a pool hitherto unknown and unproductive.

Manual of Oil & Gas Terms:

discovery: Drilling of a well to a formation capable of production of oil and/or gas.

discoveries: Proved reserves credited to new fields and new pools in old fields as the result of successful exploratory drilling and associated development drilling during the current year.

The definitions of “discovery well” implicitly or directly make reference to the capability of a well to produce, without, however, referring to any economic requirement. The AGI Glossary definition speaks of the first well to encounter gas or oil in a hitherto unproven area or at a hitherto unproductive depth, one example given being a successful wildcat. [19] The Dictionary of Geological Terms defines a “discovery well” as a well discovering oil or gas in a pool hitherto unknown and unproductive. The Manual of Oil & Gas Terms defines “discovery” as the drilling of a well to a formation capable of production of oil and/or gas.

The ordinary meaning given to the words “discovery”, “discover”, “accumulation” and “accumulate” in the Concise Oxford Dictionary, is:

Discovery: the act or process of discovering or being discovered.

Discover: find out or become aware of ... be the first to find.

Accumulation: the act or process of accumulating or being accumulated.

Accumulate: acquire an increasing number or quantity of.

The French version of the Act speaks of “découverte ... d’un gisement naturel”. Le Petit Robert defines as follows “découverte” and “gisement”:

Découverte: action de découvrir ce qui était ignoré, inconnu. [20]

Gisement: disposition de couches de minéraux dans le sous-sol; masse minérale importante, propre à l’exploitation. [21]

It is noteworthy that subparagraph 66.1(6)(a)(ii) which is applicable to expenses incurred before April 1987 requires that in order for expenses to qualify as CEE, the well had to be the first one capable of production in commercial quantities. For expenses incurred after March 1987, subparagraph 66.1(6)(a)(ii. 1) requires that the well result in the discovery of a natural accumulation of petroleum or natural gas. From the definitions of “discovery” and “accumulation” found either in the industry or in the dictionaries, it seems to be intended that the word “discovery” be substi- tuted for “the first well capable of production”, and the expression “a natural accumulation” would be substituted for “an accumulation ... not previously known to exist”. In this regard, the principle of implied exclusion might apply.

In Driedger on the Construction of Statutes? [22] this principle is defined as follows:

An implied exclusion argument lies whenever there is reason to believe that if the legislature had meant to include a particular thing within the ambit of its legislation, it would have referred to that thing expressly. Because of this expectation, the legislature’s failure to mention the thing becomes grounds for inferring that it was deliberately excluded. Although there is no express exclusion, exclusion is implied. The force of the implication depends on the strength and legitimacy of the expectation of express reference. The better the reason for anticipating express reference to a thing, the more telling the silence of the legislature.

On this reasoning, I must conclude that the legislator deliberately excluded from the definition of CEE the requirement of production in commercial quantities. [23] In my view, the expenses in issue will qualify as CEE if the appellants are able to show and establish on a balance of probabilities that oil or gas was found in certain quantities in well 10-24 and that this well was capable of production.

Was There a Discovery of a Natural Accumulation of Petroleum or Natural Gas with Respect to Well 10-24

Experts’ Evidence

The appellants’ expert John McGilvary is Futurity’s Vice-President, Exploration. He graduated with a bachelor’s degree, having majored in Geol- ogy and minored in Mathematics. He has been working in the oil and gas industry for the past 22 years performing duties consisting in determining whether wells hold an accumulation of petroleum or natural gas, assessing well porosity and permeability and determining other factors indicating the actual existence of petroleum or natural gas.

According to the experts, porosity refers to the empty spaces in the rock in which oil, gas or water has collected. Permeability refers to the ability of the rock to allow oil, gas or water to pass through it. Mr. McGilvary is of the opinion (and the respondent’s expert, Mr. Davidson, does not agree with this specific point) that permeability would not necessarily be required in order to determine that an oil or gas well has an accumulation of oil or gas since it is the porosity that actually contains the accumulation of oil and gas. Permeability would simply allow the oil and gas to travel into the porosity from the adjacent carbon rich shales where it was formed. Permeability is also the controlling factor in the rate at which a well produces.

The determination as to whether an accumulation of petroleum or natural gas has been discovered is made during the drilling process through such means as actual core samples, open hole well logs and geological well samples. All these tests measure the porosity and permeability and help determining if the porosity is filled with oil, gas or water. Open hole well logs also record the resistivity of the zone. Since the porosity is filled either with oil and gas or salt water, the resistivity log determines the presence either of oil and gas, which have high resistivity, or of salt water, which has low resistivity.

Analysis of well 10-24

Well 10-24 had two developed sand zones referred to as the “Upper Zone” and the “Lower Zone”.

1 ) Core Data

No core was taken from the Upper Zone. Crowdis Oil Consultants Ltd. in its geological report, which is the well site geologist’s report (“Crowdis report”), summarized its review of the core by stating “minor evidence of live hydrocarbons was evident in the sands which generally displayed fair to good porosity”. [24] According to the Crowdis report, fair porosity ranges from 6 to 12 per cent, whereas good porosity ranges from 12 to 20 per cent. Mr. McGilvary’s review of the Crowdis report reads as follows: [25]

22. My review of the Crowdis Oil Consultants Ltd. report indicates that both the Upper and Lower Zones have porosity that, filled with oil and gas, would represent an accumulation. Both zones appear to have contained oil and gas as indicated by the oil staining and fluorescence of light oil under ultraviolet light. The oil may have been either the main component or condensate associated with gas.

According to Mr. McGilvary, the Geotechnical Resources Ltd. core analysis report dated March 7, 1989, which is described as the laboratory core analysis (“Geotech report”), shows porosity for the Lower Zone approaching 6 per cent and permeability of up to 0.84 mD. As to the core summary, it shows an average porosity of 4.1 per cent and an average permeability of 0.13 mD. The analysis also shows a trace of oil and 12.7 per cent to 72.5 per cent water saturation [26] as well as fractures in some samples. In the view of the appellants’ expert, the empty space (ranging from 27 per cent to 87 per cent) between the trace of oil and the water was probably filled up with gas (as it was not filled with water) which escaped from the core during transportation to the laboratory.

The interpretation of the core data by the respondent’s expert, Mr. Davidson, differs on some points. He mentioned first of all that the Geotech report and the Crowdis report are at variance with one another. The Crowdis report mentioned minor evidence of live oil whereas the Geotech report mentioned no oil staining or fluorescence. [27] From this, Mr. Davidson drew the following conclusion:

From this, I can only conclude that the term “minor” should actually be negligible. I would consider Mr. McGilvary’s conclusion in paragraph 22 of his statement to be very optimistic. The presence of minor amounts of oil in a core may represent residue of oil that passed through this location during its migration to other areas. It only indicates that oil was there at one time, not now. [28]

Mr. Davidson explained that he had no scientific evidence from which to conclude that live hydrocarbons were present in negligible quantities. He said that he drew this conclusion from comparing the Crowdis and the Geotech reports. He admitted that there could be some evaporation of live hydrocarbons while being transported from the well site in Brazeau River to Geotech’s laboratory in Calgary, which is an eight-hour drive.

With regard to Mr. Davidson’s allegation of migration, Mr. McGilvary said that there is no migration in the Cardium formation and that, had imigration occurred, there would have been traces of bitumen (dead oil). However, Mr. McGilvary conceded that when the core analysis shows a trace of oil, it means less than one per cent.

In analyzing the core data, Mr. Davidson obtained porosity and permeability results somewhat higher than Mr. McGilvary’s results. Applying a general rule of thumb for sand reservoirs which requires a minimum of 6 per cent porosity and 0.3 mD permeability in order for a zone to be capable of production, he concluded that the “10-24 core indicates that there is not likely to be any reservoir since the highest measured core porosity is only 5.7 per cent”. [29]

During his examination-in-chief, Mr. Davidson admitted that for gas the permeability standard could drop from 0.3 mD to 0.1 mD because gas flows more readily than oil. [30]

2) Open hole well logs data

Mr. McGilvary put forward the following summary of the open well

His conclusions with regard to these logs read as follows: [32]

My review of the open hole well logs indicates that both the Upper Zone and the Lower Zone have porosity filled with oil and/or gas that represents an accumulation. The Upper Zone has better porosity than the Lower Zone with values in the range of commercial fields in the area (12%). The ERCB list of Cardium pools in the area with economic producing reserves range from 8% to 17% porosity with a 13% to 35% water saturation. The neutron log on the Upper Zone gives a strong indication that the porosity is filled with gas rather than oil. The resistivity log on both zones is reading high values proving the porosity is filled with oil and/or gas and not salt water. The self potential log and the caliper log indicate that the zone has permeability as well as porosity. The gamma ray log indicates that the Upper Zone has less shale material mixed with the sand than the Lower Zone.

Mr. Davidson agreed with the data provided in Mr. McGilvary’s summary, except for the density porosity value of 12 per cent for the Upper Zone. According to Mr. Davidson, the density porosity of the Upper Zone is 3 to 4 per cent rather than 12 per cent and the average porosity is 9 per cent (when a cross plot analysis of the density and neutron porosities is done). He explained this difference in that the logs readings on the density show a washout [33] and that would give an abnormally high porosity reading. Mr. Davidson then reduced the porosity to 5 per cent as a result of a calibration between the core and the log results. However, he admitted that, should his washout theory prove to be wrong, he would agree on a porosity value of 7 per cent for the Upper Zone.

Mr. McGilvary is of the opinion that there was no washout or if there was, it was of no consequence. According to him, the log tool is able to make a correction for a washout and in the present case, the 12 per cent value for porosity is already corrected for any washout. Furthermore, the operators of the well log tools conducted a second test to check the repeatability of the two logs and the results were virtually identical. The corresponding reading on the neutron log also supported the two readings, which led Mr. McGilvary conclude that the density log was quite accurate. Mr. Davidson admitted that he had not previously seen the repeatability log. When it was shown to him, he admitted that there was good repeatability. [34]

3) Water saturation

Having determined the degree of porosity and permeability, Mr. Davidson mentioned that the next step was to determine the water saturation of the potential zone. [35] Using the average formation water resistivity of this zone in this area (0.6 ohm/m @ 25°C), as corrected by taking into account the formation temperature according to the bottom-hole temperature (82°C) indicated in the logs, thus giving a corrected water resistivity of 0.25 (Schlumberger Chart), he computed water saturations of 100 per cent for the Upper Zone and 95 per cent for the Lower Zone which means that oil or gas saturation is very low. The minimum water saturation [36] would be 55 per cent. According to Mr. Davidson, a viable well will have a maximum of 60 per cent water saturation. In his view, even under the most optimistic of scenarios, well 10-24 barely meets accepted industry criteria.

Mr. McGilvary indicated in his report that water saturation could vary between 12.7 per cent and 72.5 per cent. According to Mr. Davidson, Mr. McGilvary would have used water saturation values taken directly from the core analysis. Mr. Davidson believes this to be an error. He said in his report that water saturations from core analysis cannot be taken as indicative of the zone’s water saturation since the core was cut with a water-based mud that contaminated the original formation fluids. According to Mr. Davidson, only when the core is cut using formation oil can uncontaminated cores be obtained. In the case of well 10-24, the drilling report indicates that a gel chem mud (which is water based) was used to drill the well. This is why Mr. Davidson concludes that core water saturations as measured from well 10-24 core are unreliable as indicators of true water saturations. [37]

In cross-examination, Mr. McGilvary admitted that the mud used “when coring” could influence the determination of water saturation but not in such a manner as to affect his conclusion. He said that the core generally gives a ballpark idea of the water saturation level. In his opinion, if water saturation had been significant, it would have shown up in the core analysis. From the core analysis report [38] he concluded that the water saturation readings were fairly low and in line with the irreducible water saturation in the Cardium formation (which he earlier said varied between 20 and 30 per cent). He further mentioned that the fact that there is a trace of oil is also good. He said: “In a case where you get a trace of oil left behind and, you know, this amount of water, it probably means it’s filled up with gas”. [39] He also explained that the core analysis report did not contain any indication of gas as, by the time the core gets to the laboratory, the gas in the core has evaporated.

Regarding Mr. Davidson’s water saturation calculations, Mr. McGilvary first mentioned that the 0.6 ohm/m water resistivity data used by Mr. Davidson [40] were erroneous. Instead of using the value for the closest well, Mr. Davidson took the value for a well situated 25 miles closer to the mountains which according to Mr. McGilvary flaws the results because:

...if any water is flushing through that Cardium formation, which it really isn’t because it’s a stratigraphic trap, but if it were it would be coming from the mountains and, like an artesian well, it would be coming down and flushing up in the zone. So naturally if you go towards the source, you will get a fresher or a higher reading [41] ...

Using a 0.2 ohm/m water resistivity value (this value is taken from a well located over 30 miles to the north of well 10-24 and in the opposite direction to the mountains) instead of the 0.6 value, Mr. McGilvary computed a 42 per cent water saturation. Mr. Davidson conceded that the 0.6 value was taken from the well that would give the worst result but stated that this was supported by the 0.5 value for a well located north of well 10- 24. He did not know, however, which well that was.

Mr. McGilvary noted a few other flaws in Mr. Davidson’s calculations of water saturation (such as use of the wrong bottom hole temperature and failure to take into account either the thin bed effect [42] or the shaly sand correction in determining porosity). While he seemed to agree with Mr. McGilvary on this, Mr. Davidson was of the opinion that these flaws were favorable to the appellants.

In his report, Mr. Davidson made some comparisons between well 10-24 and well 7-6-42-10 WS (“well 7-6”) which is the closest Cardium pool to the subject well. Well 7-6 has a pool recognized by the EUB and NEB, even though it has yet to produce. From this comparison, Mr. Davidson made the following findings:

Logs from 7-6 indicate that:

1) the Lower Zone has a higher pure sand content and lower shale component than that of 10-24, as reflected by the gamma log data from both wells;

2) 7-6 is more resistive than 10-24 by 2.5 times although both have similar log porosities; and

3) Core data indicates a permeability in 7-6 about 10 times greater than 10-24 and core porosities 2.5 times the results in 10-24. [43]

Mr. Davidson also added that the results of a comparison with discovery wells for all Cardium oil and gas pools within 18 miles of well 10-24 supported not assigning any pay thickness [44] to well 10-24. However, Mr. Davidson admitted that, if his washout theory proved to be wrong, well 10-24 would be comparable to well 7-6 and would even have a better log porosity than well 7-6. [45]

During his examination in chief, Mr. McGilvary did some water saturation calculations for well 7-6, based on Mr. Davidson’s methodology, using for example, the 0.6 ohm/m water resistivity value; he did not make any shaly sand correction or thin bed correction. [46] He obtained a water saturation of 80 per cent, which is above Mr. Davidson’s standard of 60 per cent water saturation for a productive zone. Mr. Davidson agreed with these calculations. [47] In light of those same calculations, Mr. McGilvary came to the following conclusion:

If this [well 7-6] is a discovery well that’s capable of producing gas, he[Mr. Davidson]’s saying it’s 80 per cent water and I would have to conclude that this method doesn’t work.

4) Well completion and production test results

After an evaluation of the core, the geological well samples and the open well logs, Benchmark and its partners were satisfied that they had discovered an accumulation of oil or gas: “As a result, casing was run into the hole and the well was prepared for production testing to determine the profitability of the well”. [48] Mr. McGilvary testified that if there had been any doubt as to the existence of an accumulation of oil or gas, they would have run another test (called a drill stem test), which was not done as they felt it was not necessary. He further added that he “would not have run the casing if they did not expect to produce the well”.

In his report, Mr. McGilvary summarized the completion and production testing of well 10-24. He interpreted the test reports as follows:

28. My review of the completion and production test results confirm the presence of an oil and gas accumulation since naturally occurring gas was recovered consistently from the Upper Zone and the Lower Zone. It is not possible to tell whether the oil recovered was naturally occurring because oil was used to control the well during the completion process. The gas may be the primary component of the accumulation or it may be associated with oil. No water was recovered.

While being examined in chief, Mr. McGilvary went over some of the most significant facts contained in the summary of the completion and pro- duction testing of well 10-24. [49] He mentioned the fact that during the perforation of the Lower Zone, the well started flowing and then they started to see traces of gas in the returns. As the gas in the returns was not flowing at the rate they were looking for, it was decided to fracture the well to try to improve the productivity rate of the well. These new tests showed that the rate of gas flow in the returns was increasing. Mr. McGilvary said: “At this point we knew without a doubt we had — that the porosity and permeability were filled with hydrocarbons”. [50] However, the rate of gas flow remained unstable. The report then indicates “Gas showing in returns TSTM”, [51] which means too small to measure. According to Mr. McGilvary, this does not mean that they did not get much gas but rather that the gas they were getting was not measurable with the equipment available on the site. He expressed himself this way:

Now there could still be quite a substantial flow rate and still be too small to measure. [52]

As for the Upper Zone, they perforated it, and immediately had gas showing in the returns. Again, the gas returns were too small to measure. It was decided to fracture the Upper Zone as well. Traces of gas came out and few days later the well blew gas. The report indicated “Well gassing after swabs”, meaning that every time they took a little bit of pressure off it, a blast of gas came out. [53] In the end, they had recovered most of the fluid they had put into the zone (fluid is injected into the well during the fracturing operations to equilibrate the pressure in the well) which, in Mr. McGilvary’s opinion, is indicative of a producing well. [54]

Mr. McGilvary also mentioned the fact that no water was recovered out of either the Lower or the Upper Zone, which is normal in the Cardium Zone and leads him to conclude that any water within the reservoir would be irreducible water saturation (around 20 to 30 per cent) [55] and that the well was filled with oil and gas. In cross-examination, he admitted that the simple fact of drilling a well and getting no water out of it is not conclusive as to the absence of water in the well; additional information is needed, such as with regard to porosity and permeability. However, for well 10-24, Mr. McGilvary provided the following answer:

We’re talking about the specific case of the 10-24 well where I know the geology and I know what’s on the logs and I know what’s on the core and I know what they got out of the tests and absolutely not, there is no way that you’re going to get water out of that reservoir. [56]

On this question concerning the relevance of not having recovered any water, Mr. Davidson provided the following answers to counsel for the respondent:

A. If they had got oil or gas to flow and no water, that would be good because obviously it can produce relatively clean hydrocarbons. As I said a minute ago, the fact that no water flowed gives further support that you are dealing with a low porosity, low permeability sand. There’s just not enough ability for the rock to move any liquids.

Q. In your opinion then, what does it say about the quantity of oil and gas?

A. It would be rather limited.

Q. Why is that?

A. Because you’ve got the high water saturation in the pore space so that leaves very little room for any oil or gas movement; certainly none that could be produced.

Q. Sir, the fact that no water comes out of the well, is that an indication that water saturation is low?

A. It could be, but not necessarily so. [57]

With regard to the completion and production testing of well 10-24, Mr. Davidson made some comments in his report although he assessed his experience in reviewing completion reports as being “a little limited”. [58] Regarding Mr. McGilvary’s remarks on the fluid sitting in the well (“unable to locate fluid”, as it is put in the completion report), which he explained by saying that the fluid could not flow if the pressure was not reduced, Mr. Davidson commented that by the 10th day, the hydrostatic pressure on the formation was almost all reduced. From that he concluded that “if there was any liquid that could flow in the well it should have flowed or if there was any gas in the well that could flow at a good rate, it should be able to come out of the formation now”. [59] According to Mr. Davidson, the very low fluid level indicates that the Lower Zone is unable to produce any new fluid in the well. Mr. Davidson concluded as follows:

Now, my interpretation or my reading of those results indicates that they got no fluid coming from the formation into the wellbore in spite of the fact that they took all the hydrostatic pressure off the formation at which point, if it was going to flow, it would have flowed or should have flowed. So based on those production tests, it was my conclusion that this was not a very good well in either zone and at that point I would agree with the ERCB that there shouldn’t have been any reserves assigned to the well. [60]

Finally, Mr. Davidson pointed out that these production tests agree with his interpretation of the log and core data. In his opinion, there was not a discovery of oil or gas. At best it could be said that well 10-24 gave a show of petroleum which is not producible. He defined a “show” as this:

A show is that you’ve got some signs there’s petroleum or natural gas in the formation, but those indications were too small or could not be--the presence of producible hydrocarbons could not be proved by the production test. So, it’s just an indication and it’s called a show in industry terms, that there are hydrocarbons there at some time or there may have been hydrocarbons there at some time but there’s no producible hydrocarbons there now. [61]

He then mentioned that traces of gas could flow out even where there is low porosity and low permeability sand and high water saturation as gas is the first thing to flow. Water should be next and oil should be the last thing to flow out.

In cross-examination, Mr. Davidson admitted that the completion reports had to be done in a very short period of time due to the bad condition of the roads. However, this fact did not change his opinion that for there to be a viable gas well, gas should have flowed (and not just traces found) by the time the fluid was all taken out of the hole, which was not the case.

5) Conclusions of the experts.

Mr. McGilvary concluded that there existed a natural accumulation of petroleum or natural gas in well 10-24. According to him, the porosity and other measurable characteristics are comparable to other ERCB “established reserves” which have been economically viable. [62] While he acknowledged that the Lower Zone would be considered economically marginal because of its low porosity, he is of the view that the Upper Zone fell into the same range as producing wells in the area and should be able to produce oil and gas. [63] He believed that in defining “discovery”, quantity would have to come into play (“you need enough oil and gas from the discovery to know that you’ve got it” ), [64] but he was also of the opinion that there is no need for a positive finding that the discovery would yield income. He considered an accumulation to be “a discovery with the possibilities of some economic viability to it”. [65] This does not mean however that we should always expect a well to be profitable since many wells were considered as not being economically viable despite the recognition of the existence of an accumulation. His definition of “a discovery of a natural accumulation” is basically oil and gas, heretofore not identified, filling a porosity in the ground.

According to Mr. Davidson, [66] when the industry refers to a “discovery”, it is referring to the finding of a significant amount of petroleum, clearly enough to flow to the surface under normal conditions and at a rate that may be economic. [67]

The finding of small amounts of petroleum would be considered to be a “show”, not a discovery. “Show” is defined as follows in the technical literature:

AGI Glossary

show: A trace of oil or gas detected in a core, cuttings or circulated drilling fluid, or interpreted from the electrical or geophysical logs run in a well.

Dictionary of Geological Terms:

Show: (of oil or gas) A noncommercial quantity of oil or gas, encountered in drilling.

Mr. Davidson then concludes as follows: [68]

I would agree with the EUB that no reserves should be assigned to this well for either the Upper or Lower zones within the Cardium formation. The EUB definition of proven or established reserves allows for assignment of reserves to wells that are currently uneconomic provided that those reserves are proven by drilling, testing or production. According to this definition and all others currently accepted, the 10-24 well has not proven the presence of reserves.

Mr. Davidson concluded in his report that the geological data indicates that the subject well has no accumulation of oil or gas and hence no producible reserves. He is of the view that the porosity, permeability and hydrocarbon saturation are all below accepted norms for Cardium pools in the area. Some evidence was also presented by Mr. Davidson on the EUB review process for assigning proven reserves. Counsel for the respondent argues that this was an independent review, which determined that there was no volume of oil or gas in the well. Counsel for the appellants requests this Court to disallow such evidence on the basis that it was not set out in Mr. Davidson’s affidavit of evidence as required by paragraph 145(2)(b) of the Tax Court of Canada Rules (General Procedure). In view of the conclusion I have reached on the meaning to be given to “the discovery of a natural accumulation of petroleum or natural gas”, which is not the definition of established reserves given by the EUB, I will not deal with this objection as I do not find that the evidence in question is in any manner relevant to the settling of the issue in the present case.

The appellants must show that oil or gas was found in certain quantities in well 10-24 and that this well was capable of production. As I understand the experts’ evidence, this can be established by geological analysis of the formation. From what I heard, I infer that the various tests performed to determine the porosity, permeability and water saturation as well as the completion and production tests would help us in establishing whether the well holds a sufficient quantity of oil or gas to demonstrate a capability to produce. The analyses by the experts of all these tests differ on some points and do not agree on the final result. The respondent’s expert is of the view that well 10-24 only showed traces of gas which would mean that there is not a sufficient quantity of gas to allow one to conclude that well 10-24 is able to produce. The appellants’ expert is of the view that, considering the fact that no water came out of the well combined with the fact that in the Cardium formation water saturation is fairly low, and taking into account the porosity and permeability calculations, all this is sufficient to indicate that there was a good quantity of gas in the well. The opinion of the experts can lead me in one direction or the other.

Conclusion

My analysis of the evidence leads me to conclude that the appellants have established on a balance of probabilities that the opinion given by Mr. Davidson was in error. First, the reference to producible reserves was inappropriate as I am of the view that there is no requirement in the Act that the well must have been proven to be an established reserve within the meaning given to that term in the industry. Secondly, Mr. Davidson’s interpretation of well 10-24 data has been successfully weakened by the appellants’ expert. [69] On the matter of porosity, I am satisfied that Mr. Davidson could have been wrong on the washout theory. Mr. McGilvary explained that the washout was already taken into account in the 12 per cent calculation of the density porosity and that the second set of tests conducted show good repeatability of the first results. On this point, Mr. Davidson admitted that he had not previously seen these second test results and he confirmed the accuracy of the repeatability tests. Mr. Davidson admitted that if he was wrong on his washout theory, well 10-24 would show a good porosity.

As to permeability, Mr. Davidson admitted the figures given by Mr. McGilvary and that permeability of 0.1 mD is enough for a gas well to be viable.

With regard to water saturation, Mr. Davidson admitted that he made his calculations based on a value taken from a well that would give the worst result. He then tried to support his conclusions with a value for another well without knowing which well he was talking about. Furthermore, he did a comparison with another well (well 7-6), which is a pool recognized by the EUB and NEB as being capable of producing gas. Mr. McGilvary was able to demonstrate, and Mr. Davidson agreed with him, that the water saturation of well 7-6 was around 80 per cent, which is over Mr. Davidson’s standard rule of water saturation for a viable well (60 per cent). Nevertheless, well 7-6 was qualified as being viable. I therefore accept the water saturation calculations made by Mr. McGilvary inasmuch as it did not affect the capability of the well to produce.

Also, Mr. Davidson interpreted the completion and production test results as confirming his geological analysis. His conclusion was based on the fact that not all the fluid put into the hole was recovered, which would indicate a poor flow potential in this well, and that the amount of gas flowing to Surface was minimal and was not measured. He conceded, however, that his experience was rather limited in this field. He also acknowledged that the explanation given by Mr. McGilvary as to why they were unable to locate the fluid put into the hole might have been right. [70] Furthermore, Mr. McGilvary did explain why the amount of gas was not measured. Finally, Mr. Davidson recognized as well that the production tests were done in a rather short time period and that this could have affected the recovery of the fluid.

In conclusion, I am of the view that the respondent applied overly severe criteria which are not set forth in the Act, in determining that well 10-24 did not result in “the discovery of a natural accumulation of petroleum or natural gas”. I am of the opinion that the appellants have demonstrated that well 10-24 was able to show a capability of producing gas during the year in issue. The fact that the well failed later on is irrelevant as I am convinced that in the period in question Benchmark and its partners had reason to be- lieve that there had been a discovery of a natural accumulation of natural gas.

Decision

The appeals are allowed and the assessments are referred back to the Minister of National Revenue for reconsideration and reassessment on the basis that the $100,000 in expenditures incurred by Benchmark in relation to well 10-24 did constitute CEE within the meaning of subparagraph 66.1(6)(a)(11.1) of the Act. The appellants Wheeler and Hodge are therefore entitled, in computing their income for the 1988 taxation year, to deduct an amount of $17,500 each ($25,000 less a grant of $7,500) on account of the CEE renounced to them by Benchmark. As to the appellant Hepburn, he is entitled to deduct an amount of $42,700 ($61,000 less a grant of $18,300).

The whole with costs which are limited to one set of costs.

Appeal allowed.