Climate Change Challenges to Accounting

doi:10.4236/lce.2013.41003

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Low Carbon Economy, 2013, 4, 25-35

http://dx.doi.org/10.4236/lce.2013.41003 Published Online March 2013 (http://www.scirp.org/journal/lce) 25

Climate Change Challenges to Accounting

Constancio Zamora Ramírez, José María González González

Department of Accounting and Finance, University of Seville, Seville, Spain.

Email: constancio@us.es

Received December 2nd, 2012; revised January 10th, 2013; accepted February 5th, 2013

ABSTRACT

Low carbon economy is causing the implementation and development of carbon markets that affect an increasing or-

ganizations number. These markets entail new challenges to accounting practitioners. The aim of this paper is, on the

one hand, to know how the financial statements are being affected by the obligations of companies to control and com-

pensate their carbon emissions, by analyzing the different positions adopted by both regulatory organizations and com-

panies in the practice; and, on the other hand, to analyze the content and specific problematic of accounting statements

that report on emissions in physical terms. This paper considers the accounting treatment of new carbon assets and li-

abilities which external information is not sufficiently regulated . Also, the paper analyzes the new contractua l relation-

ships that are being developed such as complex derivative structures, purchasing carbon units through ERPAs (Emis-

sions Reduction Purchase Agreements), carbon monetization, carbon collateralization and carbon funds. Finally, new

report requirements to companies that are arising, like Carbon Accounting or risks and strategies regard to climate

change (Carbon Reporting), are also analyzed.

Keywords: Climate Change; Carbon Assets; Carbon Markets; Carbon Finance; Weather Derivatives; Catastrophe

Bonds; Carbon Acco unting; Carbon Reporting

1. Introduction

In the past years we have been able to appreciate a con-

tinuous increase in the organizations’ overall interest to

measure their Greenhouse Gasses emissions (hereinafter,

GHG), with the goal of reducing or compensating them.

The for-profit companies that are also interested in mea-

suring their GHG emissions are not limited solely to

those that have a productive model that is highly linked

to the consumption of fossil fuels, sin ce they include ser-

vices companies and even financial institutions. In this

sense, we can say that the control and r eduction of emis-

sions of the organizations fighting against climate change

are raising important challenges to Accoun ting [1-4].

The organizations are getting involved in the emissions

control and reduction processes, either because they are

submitted to a regulatory framework or because they de-

cided to do so willingly. Organization s can also decide to

submit voluntarily to th e obligation of co ntrolling and re-

ducing their emissions and reporting them, for different

reasons which may include: their own corporate respon-

sibility policy, a better assessment of the company, their

products or services by their clients; better access to fi-

nancial resources or the search of influence on the regu-

lations that could be implemented in the future [5]. In

these cases, carbon assets can fulfill different functions,

including the compensation of emissions of all or part of

the activities of the company or offering the market CO2

neutral products, in which case, clients might be willing

to pay an additional charge for this “added value”.

Similarly, the carbon units can be used in a great range

of operations between companies [6]. On the one hand,

these operations can rise from the company’s manage-

ment of the different risks that are related to these assets,

normally related to the evolution of different market com-

ponents, among others: their prices, energy prices and the

relation between the main fuels, as well as the relation-

ship between volumes and prices of the different types of

carbon emission assets. On the other hand, the carbon

units can be a source of resources that the companies can

access in different ways.

Carbon units fundamentally form the mechanisms for

mitigation in the fight against climate change. However,

with this same goal, we will find specific financial instru-

ments through which companies can manage the risks

deriving from climate and natural disasters, which result

in the rise of the so called adaptation mechanisms.

We can suppose that the economic effects of the emis-

sions, as well as the different assets and operations de-

veloped for their management, may affect the accounting

balances in many different ways. There are instruments

and operations that are p erfectly framed within the Inter-

national Accounting Reporting Standards (IFRSs), and

the International Accounting Standards (IASs), both is-

Climate Change Challenges to Accounting

sued by the International Accounting Standard Board

(IASB). However, the lack of agreement on the true na-

ture of carbon assets has hindered the necessary consen-

sus so that the practice accepts IASB’s efforts to regulate

the accounting of emission rights.

On the other hand, the supply of information r egarding

emissions no longer constitutes one sole problem which

may have a greater or smaller impact on traditional fi-

nancial statements. The social and political awareness of

the environmental impact of the entrepreneurial activity

has resulted in the inclusion of sustainability reports in

their financial information. In these reports we can find

real financial statements of emissions, in which the eco-

nomical fluxes of monetary units have been replaced by

flows of tones of CO2 emissions, including notes in whi ch,

instead of commenting on the accounting principles and

policies used for the preparation of this information, we

find the specifications of the measurement standards of

these emissions.

Consequently, the carbon economy implies a large

range of legal, economical, and financial problems, as

well as in terms of the information prov ided by the com-

pany which we will analyze in this paper from the point

of view of their impact on the information revealed by

organizations. Likewise, we will consider if these new

problems can be solved or not by the current accounting

regulations, thus contributing to identify those specific

aspects in which Accounting research can offer answers

and, in general, all the aspects related to the revelation of

information by the companies in regards to a low-carbon

economy.

To comply with this goal, in the following sections of

this paper, we have considered the accounting treatment

of the new carbon assets and the economical obligations

linked to the low-carbon economy, whose reporting in

the financial statements still have not been regulated de-

finitively. Furthermore, we will analyze the accounting

implications of these new contractual relationships that

have been developed on carbon units, under derivative

structures, as forms of future acquisitions of these assets

by means of Emissions Reduction Purchase Agreements

(ERPAs), carbon monetization, carbon collateralization

and carbon funds. Moreover, we will show the account-

ing implications of the operations in the adaptation mar-

kets. Lastly, we will analyze the information standards

that are arising for organizations, both to elaborate and

report on carbon inventories (Carbon Accounting) as well

as showing the references to risks and strategies related

to climate change (Carbon Reporting).

2. Reference Regulations and Practices

for the Financial Accounting of Carbon

Assets

Although the European market has been working for over

half a decade, the debate on the nature of the assets de-

riving from them still hasn’t been closed, which not only

affects their accounting treatment, but also their tax con-

siderations and other legal issues. The difficulty to adapt

their nature to the legal effects is determined by the vari-

ety of their origin, functio n and implications for th e com-

pany:

 The diversity of carbon units that arise from these

markets.

 The different purposes for which they can be used in

an institution an d their different sources: for the com-

pliance with the legal oblig ations for the emissions of

their facilities, for the compliance of voluntarily ac-

quired commitments and even, with mere speculative

purposes regarding their prices.

 The acquisition of carbon units that, for example, can

take place through the reception of de rivative rights in

an assignment plan, direct purchases from third par-

ties or through a platform the compliance of forward

or option contracts or the participation in a carbon

fund.

 Participation in these markets implies for the co mpan y

the recognition of liabilities in their balance sheets of

the obligations resulting from issuing the emissions

subject to this regime.

As the first international reference regulation we can

mention the Uniform System of Accounts de la Federal

Energy Regulatory Commission (FERC) of 1993 in the

United States of America, for energy companies and util-

ities. Emission rights, in this case, were for the emissions

of sulphur dioxide-acid rain-established in the amend-

ments of the 1990 Clean Air Act. Despite the time ela-

psed since this act and its diversion from the rest of the

regulations, as we will see below, there are practices in

many companies that comply with the same.

Both the Financial Accounting Standard Board (FASB)

as the IASB have had failed experiences in terms of the

issuance of statements in this regard. FASB eliminated

from their agenda th e EITF 03-14 Participants’ Account-

ing for Emissions Allowances under a “Cap-and-trade”

Program, based on a regulation issued by FERC. The rea-

sons to eliminate this EITF is mainly based on the di-

mension of the problematic that this document should

address (beyond a cap-and-trade program), as well as the

inconsistencies of the document (based on FERC regula-

tion) with the rest of the FASB standards [7].

IASB wanted to prepare a statement of the Interna-

tional Financial Reporting Interpretation s Committee (IF-

RIC) before the implementation of the emissions rights

European market. Thus, in December 2004 they issued

the IFRIC Interpretation 3, Emissions Rights, with the

purpose of seeking a greater consistency with the regula-

tory corpus of this body. However, it didn’t have the

support of the European Financial Reporting Advisory

Climate Change Challenges to Accounting 27

Group (EFRAG), which resulted in its elimination by

IASB. Currently, this project has been stopped. The main

characteristics of this regulation were:

 A consideration of the European emission rights as

intangible assets subject to the Intern ational Account-

ing Standard (I AS) 38.

 The valuation of these assets in their recognition would

be at their fair value, therefore the listing as assets

acquired from the government at a price that is null or

lower than market value should appear on the balance

sheet as a government grant (subject to IAS 20), wh ic h

would imply the recognition of deferred revenue. This

revenue would appear as a liability on the balance

sheet, outside equity, and would be allocated to the re -

sult of the year on the basis of a systematic base dur-

ing the compliance period, regardless of if these as-

sets (carbon units) were maintained or transferred.

 Once these assets had been recognized, they would

maintain their initial va lue, except for corrections due

to deterioration. However, the re-evaluation model

foreseen for intangible elements in IAS 38 could be

applicable.

 The emissions developed would give way to the rec-

ognition of a liability subject to IAS 37 (Provisions,

Contingent Liabilities and Conting ent Assets). There-

fore, the debt should be recognized for the amount

necessary to compensate these emissions in the pre-

sent, in other words, at the fair value of the amount

equivalent to those emission rights.

Although the carbon markets and the climate change

economy are in constant expansion, the accounting stan-

dards still do not have a necessary consensus. This has

resulted in a remarkable divergence in the development

of practices by corporations in relation to the reflection

of all the equity effects that could derive from the impli-

cation in low-carbon markets and projects. Therefore,

when studying how these aspects affect the financial

statements, we should also consider how these practices

are being developed. The entrepreneurial practices have

developed actions that are not fully consistent with the

IFRSs. In 2007, PricewaterhouseCoopers (PwC) con-

ducted a study [8] regarding these practices, not only fo-

cusing on the accounting of EUAs and the emissions ob-

ligations of the companies, but also on CERs.

We must bear in mind that the aforementioned docu-

ments refer to very specific assets, more specificall y Eu r o-

pean emission rights, but the problem is extensive to

other carbon assets, as well as the obligations and op era-

tions resulting from the company’s participation in other

carbon markets, within the Kyoto Protocol or not. How-

ever, the joint project with FASB, Emissions Trading

Schemes, has suggested a more extensive scope for cap-

and-trade regimes of mandatory compliance, so that it

may include any r e gulation for volun tary regimes1.

The analysis below regarding the accounting implica-

tions of the participation in a carbon market will be done

by using as a reference all the documents mentioned in

this section.

3. Balance Elements Generated by the

Carbon Markets: Presentation and

Valuation

3.1. Balance Sheet Presentation

Basically, we can identify three elements that could ap-

pear in a balance when a company takes part in a carbon

market: assets for carbon units, liabilities for the obliga-

tions resulting from the correct regime that the company

is ascribed to, deferred in come (or equity, in its case) for

the emission rights received for free or for a price below

their fair value. The operations on these assets as those

developed in the adaptation markets will be addressed in

Sections 4 and 5.

For the carbon assets, with their maximum exponent in

the EUA, in general, the conceptual Accounting frame-

work can point us towards an independent presentation in

the balance. In fact, the control that the company exer-

cises on these assets is independent of its obligations; the

organization can transfer them once these rights have

been assigned, having the obligation of rendering an

amount of rights equaling the tonnes of CO2 emitted in

the past.

The register of the accounting implications of an emis-

sions regime can be done showing a net amount in the

balance [9] between the allowances maintained by the in-

stitution and their amount which should be provided for

the actual emissions (including an amount for the same,

lessening the asset). If there were not enough permits,

this net amount would imply including a liability in the

balance. Thus, the described register was included by

FERC in their regulation Uniform System of Accounts,

in which the emissions permits were considered as stock

inventories, to be valued at a historical cost by using the

weighte d average cost , so that thos e delivered by the go-

vernment freely would have an accounting value equal to

zero. The value of this asset would be reduced, collecting

the corresponding cost as the emissions of sulphur diox-

ide would take place.

The accounting nature of the batch for carbon assets,

in addition to being considered in certain environments

as an inventory, has been proposed as a financial instru-

ment and an intangible asset, the latter is what seems to

obtain a larger consensus among regulators for their pre-

1We will later refer to this project in different sections of this paper. It

can be read in the following links: http://www.ifrs.org/Current+Project

s/IASB+Projects/Emission+Trading+Schemes/Emissions+Trading+Sc

hemes.htm and http:/

www.iasplus.com/agenda/emissiontrading.ht

Climate Change Challenges to Accounting

sentation in the balan ce.

The carbon assets could hardly be treated as financial

instruments, given that, although they could be consid-

ered as a means of payment to cancel the liabilities as-

sumed by the company’s emissions, they lack a contrac-

tual nature, or the bilaterality of the definition o f a finan-

cial instrument, since it gives way to “a financial asset of

one entity and a financial liability o r equity instru ment of

another entity” (IAS 32, Section 11). In itself, it does not

comply with the financial asset definition, since they are

not cash, net instruments, cash receivables financial as-

sets, or contracts to exchange financial instruments. The

PwC (2007) survey does not include a practice that treats

these assets as financial instruments.

As regards to the treatment of these assets as stocks,

on the one hand, they are considered in the Uniform Sys-

tem of Accounts, which affects all of the power utilities

of that country. On the other hand, the PwC study (2007)

showed that 15% of the surveyed companies, when deal-

ing with EUAs, and 38% of the surveyed companies,

when related to CERs, treated these carbon assets as in-

ventories. Inventories are those assets (IAS 2, Para. 6): 1)

held for sale in the ordinary course of business; 2) assets

in the production process for sale in the ordinary course

of business; or 3) materials and supplies that are con-

sumed in production, or the rendering of services. Sec-

tion 1) is fulfilled if part of the activity were to purchase

or sale these rights in the ordinary course of business.

Section 2) is not fulfilled, since they are not undergoing a

production process. As regards to Section 3), these assets

could not be easily framed. Although they could be con-

sidered as another supply, necessary for the production

process, of with the special connotatio ns that constitute a

right to develop an action (emissions of gasses), which

do not imply the reception of a material or a service. We

must bear in mind that the amounts of the assets required

by an entity would depend more or less directly on the

production that is developed in this period.

However, it seems that the consensus ended up con-

sidering them as intangible assets, given the greater ac-

commodation of these emissions rights and credits fol-

lowing the definition of IAS 38, Para. 8: an identifiable

non-monetary asset without physical substance. The af ore-

mentioned survey reported it in the following way: of the

surveyed companies, 65%, in the case of EUAs and 38%,

in the case of CERs, considered them as intangible assets.

Although the last joint meetings between IASB and FA S B

reaffirm the nature of the assets of these rights and the in-

dependent record of the obligations that they imply, their

nature still has not been treated .

Another matter that has been discussed in the IASB-

FASB joint project is the possibility of recognizing as

assets all the carbon units that the company will receive

during the years that form a compliance period during

which the company has decided to be a part of the vol-

untary market, regardless of if these have not been deliv-

ered.

3.2. Assets Recognition per Carbon Units

3.2.1. Initial Recognition and Value

If the assets have been acquired in the market at a price

equivalent to their fair value, this price will be their ini-

tial value. However, the main problem lies in how to

value the assets received for free or for a price lower than

their fair value. This happens to many companies when

they receive emissions rights through a national designa-

tion plan, normally at zero cost. In some cases, they co uld

have supported a certain cost, but different from their fair

value, because they have been acquired through an auc-

tion system or because the company is developing a pro-

ject with which it would obtain CERs, for instance.

In regards to the freely received assets, in general, the

statements or regulatory projects opt for the recognition

of these assets at market value, as recommended in the

revoked IFRIC 3 and IAS 38. However, there are other

positions in favour of the initial null valuation which

would imply a distancing from the conceptual framework,

as we can find in some statements, as the one included in

the US FERC, and the practices of certain companies

(76% of the companies surveyed by PwC, 2007). This

initial null valuation or at cost (if it exists) is backed up

by the practice precisely because it eliminates volatility

problems in the results that other more conceptually co n-

sistent alternatives would entail.

The case that the carbon assets are generated by the

company itself in the development of some project for

the reduction of emissions have not been contemplated in

any project of the regulation. Given that the generated

carbon units (CERs, although others could also be used,

as ERUs or VERs) are obtained in compliance with the

main production of the project, it is probable that th e cal-

culation of the production costs would be less reliable

than recording these assets in the balance at their fair

value, recognizing th e correspond ing exp loitation in come.

The fair value will be the most consistent alternative if

these assets are considered as intangible assets, which is

the treatment given by 13% of the companies surveyed

by PwC. 29% of them recognizes their production costs

as inventories; while 29% does no t recognize it until th ey

are sold or compensated.

In the IASB-FASB joint project, they also reinforced

the position of the initial valuation at fair value, given

that it provides more transparent and relevant informa-

tion for decisio n making.

3.2.2. Measurement after Recognition

Regarding the subsequent valuation, the possibilities of-

fered by the statements are also very different. The FER C

Climate Change Challenges to Accounting 29

regulation proposes a valuation at a cost that, in case of

being units rec ei ved f or free , wo ul d conti n u e at zero cost.

Under IAS 38, we could adapt the revaluation model.

This model consists of valuing at fair value after the rec-

ognizing the carbon assets. In this case, the increases

should be included in the net assets like “other compre-

hensive income”, directly allo cating the lessening of val-

ue to losses and earnings. However, the increases recog-

nized in the equity will become part of the distributable

funds when these assets are eliminated, and what the case

would be if these were used to compensate emissions.

This model could not be applied under PGC, since it does

not consider the treatment of immobilized assets.

In the aforementioned IASB-FASB joint project, fur-

ther valuation to fair value is supported by most of the

members of the committee (meeting of September 2010

and subsequent meetings), both for those allocated for

free as those acquired from third parties. Its impact in the

results would be compensated by the liabilities assumed

by the commitments of emissions deriving from the mar-

ket regime under which the company is ascribed. How-

ever, the recognition of an income could be derived if it

is expected that part of the carbon units received exceed

the foreseen emissions, although this matter is in an ini-

tial development ph ase.

In regards to the impairment, not only would it be done

under the cost model, as well as under the revaluation

model, since the IAS 38, the lessening of values, once the

former increases in the net assets can be recognized, it

would imply the recognition of the development against

equity (for the loss of revaluations that have already been

registered in the equity) or to the result, if the recoverable

amounts were below the cost.

3.2.3. Reception of Free Assets or for Amounts below

Their Fair Value

According to the aforementioned PwC survey, the free

reception of rights is recognized at a null value by most

companies. However, when these carbon units are ac-

quired for free, they receive an initial valuation, normally

obeying their fair value and it should correspond to a

counterpart that would be recognized as a subsidy or do-

nation. In IASB, the free reception of carbon units as de-

ferred income (IAS 20), is shown as the liabilities of the

balance. In some accounting systems, like the Spanish

one, subsidies and donations are included as an amount

in other comprehensive income.

The imputation of this subs idy to the result of the year

will be done systematically, as shown in paragraph 12

(IAS 20), which will obey the emissions of gases that

will be compensated with the received units. In the sur-

vey developed by PwC, this was also the second criteria

followed by most of the surveyed companies (50%). A

similar treatment is applied when the assets are not re-

ceived for free, but for an amount lower than fair value.

Another possibility, further from the concep tual frame-

work, but put into practice according to the aforemen-

tioned survey (altho ugh in a lower percentage), is the re-

cognition as income directly in the result of the year for

the carbon assets received freely (total or partially).

3.3. Liabilities That Arise from the Carbon

Markets

The emissions of a company subject to a market, imply

the recognition of a liability at the year end, by means of

the recognition of a provision, for the compensation ob-

ligations through the delivery of the carbon-units equiv-

alents, normally EUAs or CE Rs.

Under a cost model, the provision would be registered

against profit and losses, for those emissions developed

during the period, in an amount equivalent to the ac-

counting value of the carbon assets which should be de-

livered for their compensation. In the event that there

were not enough units, the assets that should have been

acquired to annul such emissions would be increased by

the market value at the year end. In the FERC regulations

we should consider the units acquired by means of allo-

cation plans, they will not have an assigned value, which

would reduce the amount of the provision, since it would

be calculated by an aver age weighted price of the carbon

units in the portfolio. This model, in which the liab ilities

assumed by the subsidies are valu ed in terms of the allo-

cated value to the rights previously received, were also

followed by most of the surveyed companies (47%) in

the PwC survey. It is interesting to observe that th is same

item in the survey also considered the prices hired under

forward purchase options subscribed by the company

(26%).

Under the international regulations, these liabilities

should be initially valued at the market value of the car-

bon units required to cancel the obligations of the emis-

sions during that period. This is due to the fact that the

amount of a provision should be the higher estimate, at

the date of the balance, and the necessary payment for

the cancellation of the present obligation (IAS 37, Para.

2).

The broader focus adopted by the IASB-FASB project,

covering other markets such as the voluntary markets,

has been to consider if the reception of carbon units co uld

imply the immediate appearance of an obligation, since

the company has assumed a certain level of efficiency in

their emissions under the regime, and therefore would

result in a liability. If these units were received for free

from a state, under the IASB regulations, this liability ap-

pears due to its free reception2. In a meeting held in Oc-

tober 2012, most of the members of the committee chose

an initial and subsequent valuation of these liabilities at

2In IAS 20, the subsidies can be considered as deferred income (liabili-

ties), and not income directly attributable to the net equity contem-

lated in the PGC.

Climate Change Challenges to Accounting

their fair value. However, they considered the alternative

of the valuation being subject to a “business model” such

as the one used for financial instruments. In October and

November 2010, they debated if an excess of emissions

foreseen regarding the allotted carbon units, should give

way to a liability prior to the dev elopment of the efficient

excess of emissions, which were still without solving the

form of recognition and valuation of this liability.

In this last meeting, the presentation of the carbon as-

sets and the liabilities for emissions have also been con-

sidered, it is currently under debate if the assets and li-

abilities should be presented independently or in a net

form, under a “linked-presentation”, as long as the com-

pany has the intention of compensation.

4. Accounting of Operations with Carbon

Assets

Most of the operations that use carbon units as the un-

derlying adopt the structure of financial derivatives (fu-

tures, options, etc.) and, accordingly, are within the scope

of IAS 393.

Although the underlying does not create a financial in-

strument, its changes of value determine the change in

the value of the contract to acquire or sell carbon assets.

This treatment implies that the changes of value of these

contracts (or clauses) within the scope of IAS 39 should

be attributed to the losses and earnings of the period.

In addition to the negotiation of these contracts in p lat-

forms, the companies can enter in to agreements that have

the same structure or that have clauses that adopt the

form of a derivative agreement and, therefore, are also

within the scope of IAS 39. A special reference should be

made of ERPAs, private contracts through which inves-

tors and promoters negotiate the transmission of credits

that a project will generate in the future. When these clos e

or condition the price at which these credits will b e tran s-

mitted, the agreement adopts the structure of a forward or

an option.

However, the treatment as a derivative of these con-

tracts in the financial statements of a company can be

considered as outside the scope of the regulation, thanks

to the exclusion established in paragraph 5, which pre-

scribed that IAS 39 shall be applied to those contracts to

buy or sell a non-financial item that can be settled net in

cash or another financial instrument, or by exchanging

financial instruments, as if the contracts were financial

instruments, with the exception of contracts that were en-

tered into and continue to be held for the purpose of the

receipt or delivery of a non-financial item in accordance

with the entity’s expected purchase, sale or usage re-

quirements.

Therefore, a body that negotiates with these carbon as-

sets to purchase or sell them through these contracts,

because it is part of its activity, is not required to treat

these transactions as financial derivatives from an ac-

counting point of view. This can be the case of a com-

pany that owns facilities affected by EU ETS or the pro-

moter of a project that generates credits for the reduction

of emissions. It is important to highlight that to claim this

exclusion, the volume of the contract should be done in

relation to the body’s exp ected purchases, sales or needs.

The entrepreneurial practice in fact uses this possibility,

given that the PwC survey [8] states that 46% and 31%

of surveyed companies claim this exception for contracts

on EUAs and CERs, respectively.

We should also highlight that if these contracts are net

settled, it would not be possible to claim this exception,

as previously stated in Para. 5 and specified in Para. 64.

This way, for example, if the company adopts the prac-

tice of acquiring EUAs throu gh a forward and sells them

immediately, it cannot leave similar forwards outside of

the balance. It could happen that the contracts include

purchase-sale clauses of carbon units. Depending on how

these are articulated, they could proceed to the separation

of the implicit derivative, or not. Normally, the main ele-

ment of analysis for a separate presentation of the deriva-

tive is if it shares the nature and risk of the main con tract.

This is precisely the condition established by IAS 39

(Para. 11):

 In the case of cap and floor options on a variable es-

tablished price (cap, floors, collars), these should be

outside of the money and not levered at the beginning

4Paragraph 6 of IAS 39 establishes different ways by which a contract

for the purchase or sale of non-financial items can be liquidated at their

net amount, in cash or by means of another financial instrument, or

through the exchange of financial instruments. These include:

 when the terms of the contract permit either party to settle it net in

cash or another financial instrument or by exchanging financial in-

struments;

 when the ability to settle net in cash or another financial instru-

ment, or by exchanging financial instruments, is not explicit in the

terms of the contract, but the entity has a practice of settling simi-

lar contracts net in cash or another financial instrument or by ex-

changing financial instruments (whether with the counterpart, by

entering into offsetting contracts or by selling the contract

efore

its exercise or lapse);

 when, for similar contracts, the entity has a practice of taking

delivery of the underlying and selling it within a short period after

delivery for the purpose of generating a profit from short-term

fluctuations in price or dealer’s margin; and

 when the non-financial item that is the subject of the contract is

readil

convertible to cash.

3As we can observe in paragraph 9: “A derivative is a financial instru-

ment or other contract within the scope of this Standard with all three

of the following characteristics 1) its value changes in response to the

change in a specified interest rate, financial instrument price, commod-

ity price, foreign exchange rate, index of prices or rates, credit rating or

credit index, or other variable, provided in the case of a non-financial

variable that the variable is not specific to a party to the contract

(sometimes called the ‘underlying’); 2) it requires no initial net in-

vestment or an initial net investment that is smaller than would be

required for other types of contracts that would be expected to have a

similar response to changes in market factors; and 3) it is settled at a

ure date.”

Climate Change Challenges to Accounting 31

of the contract, as specified in the Application Guide

of IAS 39 (Para. AG 33 b), since otherwise, the clause

would imply the separate recognition of an implicit

derivative.

 The price of the contract can be indexed with differ-

ent references. Obviously, if it refers to an index or a

listed price of carbon assets, it would share the risks

and the nature of the main contract and their separa-

tion would be unnecessary. But there is no longer a

specific guide for those cases in which it is not a price

of the same asset. We understand that if this asset is

very similar to the one negotiated in the contract, it

would be unnecessary to separate it; for example,

CERs or VERs are purchased and their price is refer-

red to a EUA listing. Another very common case is to

list the contract at the price of a commodity, which

normally maintains a close relation with the value of

carbon units. In this case they would require a more

detailed analysis, but it is true that the prices of raw

materials or supplies such as carbon, oil, electricity,

etc., are closely related with the quoting of EUAs and

CERs, which could lead to the conclusion that this

separation is not necessary5.

Another alternative accounting treatment for these con-

tracts on carbon assets is the application of hedge ac-

counting, normally by means of cash flow hedge accou nt-

ing, since these are usually used to hedge the transactions

foreseen in these activities. This would imply that their

changes in value are included , completely or partially, as

income and expenses in other comprehensive income.

However, the practice included in the aforementioned

survey is not to use this accounting mechanism, since

barely 7% of the surveyed companies use it in the case of

EUAs. For the specific case that the hedged item is an

operation foreseen as highly probable6, the accounting

hedging that would correspond would be cash flow, im-

puting the changes of value of the derivative to the net

equity in the part that has not been determined as an ef-

fective hedging.

On the other hand, in operations such as monetization

and collateralization, their accounting treatment is equal

to a loan, in which the funds that will be received from

an ERPA will be destined fully or partially to the pay-

ment of the same. Therefore, they should be registered as

such loans. However, in the case of a monetizati on it could

be an anticipated purchase-sale of carbon assets, but for

this it would be necessary that the seller of the carbon

assets does not have to complete future deliveries of

CERs with additional provisions in the case that the val-

ue of these assets did not achieve the amount of the re-

ceived funds.

Another interesting matter is the treatment that should

be given to the participation in carbon funds. We must

consider that these funds are not constituted under the

regulation of a normal investment fund, but they are le-

gally considered as joint property7. On the other hand,

the performance obtained by the investors does not cor-

respond with the delivery of financial instruments, but

with carbon assets (EUAs or CERs, normally). This re-

sults in the fact that the accounting treatment of these

participations does not coincide with those of a normal

investment fund, in which performance is obtained nor-

mally in cash and, therefor e, is outside of the regulations

regarding financial instruments. In our opinion, these

participations should be treated in a similar way as to

how the company treats credits for directly managed pro-

jects, in other words, as intangible assets or inventories,

considering the regulations relating to a joint account.

5. Accounting of Operations in Adaptation

Markets: Weather Derivatives Y

Catastrophe Bonds

Climate change has meant that many companies develop

new financial instruments in order to “accommodate”

their income statements to the effects of climate change.

Along this line, climate derivatives and disaster bonds

have risen as adaptation financial mechanisms.

In regards to climate derivatives, their treatment will

be similar to those of any other derivative when these are

negotiated in an organized market8. The accounting treat-

ment of these instruments was the purpose of the debate,

given the function of the same as insurances. In fact, the

original wording of IAS 39, revised in 2003, excluded

these contracts from their focus (Para. 2h). However, in a

subsequent revision of this regulation in 2004, NIIF 4

eliminated this exception and only considered the exclu-

sion of those contracts that really acted as insurance, that

is, within the scope of NIIF 4 ( IAS 39, GA 1).

For a contract to have th e condition of an insurance in

the accounts under NIIF 4, the insurer accepts a signifi-

cant insurance risk from the other party (the holder of the

insurance policy), agreeing to compensate the holder if a

future uncertain event (the insured event), adversely af-

fects the holder of the insurance. Under thi s p remise, most

of the climate derivatives will not comply with the con-

ditions of the insurance, since the covered underlying

5Paragraph 33f of the AG of IAS 39 contemplates the indexing of a

lease of an inflation index of the economical environment of the entity

as a derivative that shares the nature and the risks inherent to the host

roject, as long as at the ti

e of the agreement they are outside of the

money and are not leveraged. Therefore, we consider that we could

believe that the indexation of the contracts on carbon assets are com-

modities with a close relationship between their price which will not

result in the separation of the same as an implicit derivative, with the

exception that the conditions of non-leverage and contracting “outside

of money” are respected.

6We consider that this could be the most frequent situation.

7It can be read in the FC2e Website (http://www.fc2e.com), which re-

commends this treatment to their participants.

8The largest negotiation p l a t f o r m is CME.

Climate Change Challenges to Accounting

condition cannot affect the hiring party adversely, in other

words, it simply speculates on the evolution of the vari-

able. On the other hand, it does not establish mechanisms

that evaluate this party in this case. Simply, in the event

of an evolution of a given climatic, geological or any

other physical variable, one of the parties of the deriva-

tive contract must pay the other party, depending on the

notional and calculation formulas specified in the con-

tract. In conclusion, climatic derivatives should be ac-

counted for as derivatives, in other words, recording the

assets and liabilities th at correspond to the assumed r igh ts

and obligations, and valuing them at their fair value in

profit or loss. To allow for them to be registered as insur-

ance, these contracts should only produce settlements if

the holder suffered losses as a resu lt of the covered event.

As for catastrophe bonds, they are a hybrid instrument

case, which is subject to the scope of IAS 39. The host

contract would be a debt instrument and the embedded

derivative a climate derivative, in the form of a swap, in

which the issuer would pay a premium to the investor

(excess interest rate paid on the returns that correspond to

a normal bond with the same risk and maturity); while

the issuer, in the case that the covered event occurred,

would receive a compensation equal to the nominal value

or interests that they would not have to pay.

 In order to propose the accounting treatment that the

issuer and bondholder should apply, we must remem-

ber the conditions relating to the accounting obliga-

tions of separating embedded derivatives (IAS 39, Para.

11).

 The economic characteristics and risks of the embed-

ded derivative are not closely related to the economic

characteristics and risks of the host contract; in this

case, a bond, its risks are linked to the issuer’s ability

to pay and the interest rates, wh ich are not sh ared w ith

the risks inherent to weather derivatives, whose un-

derlying variables would be measures of rain, wind,

earthquakes… Thus, both the issuer and the holder

must recognize and val ue b oth components separately.

 A separate instrument with the same terms as the em-

bedded derivative would meet the definition of a de-

rivative; obviously it has a variable that is not related

to one side (climatic-physical phenomenon), lever-

aged (the interest paid on these instruments is well

below the amount that would cease to be paid in case

of occurrence of the event-nominal or bond interest),

and have a maturity date (that of the bond).

 The hybrid (combined) instrument is not measured at

fair value with changes in fair value recognized in

profit or loss, this is, a derivative that is embedded in

a financial asset or liability measured at its fair value

with changes in the profit or loss for the period would

not be separate d.

From the point of view of the issuer, unless the liabil-

ity was measured at fair value, the bond would be valued

at amortized cost. Its initial value would result from the

difference between the initial fair value of the entire in-

strument and the value related to the embedded deriva-

tive. The effective rate to be applied to calculate the am-

ortized cost should eq ual the initial valu e thus calcu lating

the flows that correspond to a bond, considering for the

compensation an interest rate equivalent to a debt emis-

sion during the same period and by an issuer of a similar

risk.

The investor in these products may encounter more

diverse problems. If they were valued in their entirety at

fair value through profit or loss, it would not be required

to separate the incorporated climatic derivative. If this

were not the case, separation would be required, so that

the initial value of the bond (the host contract) is calcu-

lated by the difference between the initial fair value of

the entire instrument and the corresponding embedded

derivative. The main contract, as of this moment, would

be valued depending on the category of financial assets

in which they have been included. In any case, it will be

necessary to calculate their amortized cost, in a similar

way as we have specified in the preceding paragraph.

Lastly, if the investor applies IFRS 9, this type of finan-

cial assets would be valued at fair value through profit or

loss, since they are hybrids; their main contracts are

treated at the same time as the financial instruments.

6. Carbon Accounting

For the development of a low-carbon economy it is nec-

essary to have procedures for calculating the amount of

CO2e emitted by different sources, or stored, in the case

of a sump. These procedures are known as Emissions

Accounting, Carbon Capture and Storage (Carbon Ac-

counting).

Carbon Accounting r equires a pro tocol or ap proach for

the development of inventories and carbon footprints,

built under a series of principles that provide these mea-

sures with sufficient reliability. To do this, it is necessary

to follow a set of principles, similar to tho se under which

financial information is drafted: relevance, integrity, con-

sistency, transparency and accuracy [10]9. Any standard

for carbon accounting should be con sistent with the prin-

ciples of the Intergovernmental Panel on Climate Change

(IPCC), since otherwise, the generation of carbon credits

would not be possible, even if the development of the

standards considered the requirements of the regulations

of all the carbon markets [9].

The most extended protocol today is the GHG Proto-

col [10], which was promoted by the World Resources

9The Greenhouse Gas Protocol Initiative was created in the United

States, since this country has not ratified the Kyoto Protocol, although

it has had a broad dissemination even among several signatory compa-

nies.

Climate Change Challenges to Accounting 33

Institute and the World Business Coun cil for Sustainable

Development [11]. This protocol is applied to over 63%

of the companies included in US Fortune 500. Another

regulation pursuing this same purpose is standard ISO

14064-I.

Emission inventories not only have the purpose of es-

timating the emissions of a body, but they should serve

as a tool for the development of emissions reduction stra-

tegies, the establish ment of goals and th e support to ma ke

investment decisions.

The inventory should be defined in terms of two vari-

ables:

 Area of Responsibility: is the definition of th e limit to

which a body will assume the posting of the emis-

sions of their subsidiaries. There are two mechanisms:

the first, under which they would assume emissions in

the proportion of their share; and the second, which

would assume the integr ity of the emissions of all the

participated companies with a domain of 51%. How-

ever, although both are simple and objective criteria,

it is clear that situations requiring a greater complex-

ity of these methods can be easily found.

 Scope Level: Refers to those sources or origins of

emissions that will be controlled in the inventory.

Normally, a higher scope level involves higher com-

plexity in the calculations, as well as the assumption

of a hypothesis. The GHG Protocol establishes three

scope levels, the first two are of required control un-

der this standard: Scope 1) based on those sources

that are owned or directly controlled by the entity,

such as combustion boilers for the production of elec-

tricity or heat. This is the case also for the company’s

own vehicles. Scope 2) emissions related to the elec-

tricity that is acquired from third parties, therefore it

would be important that the utility company would

provide as accurate a measure as possible of the emis-

sions of the electricity consumed by its clients. Scope

3) under which the rest of t he com pany ’s indirect emis-

sions are incorporated, such as those generated by the

movement of employees in public transportation, the

freight developed by third parties, those generated for

the development of consumption required for produc-

tion, etc. This is the most complex level measured

precisely due to the lack of information and the com-

plexity of the required methodology. Therefore, its

application is often not absolute, but many co mpanies

specify this level with a limited scope.

In some cases, under a level of Scope 1) they control a

very high percentage of the volume of emissions (e.g. a

carrier), while in others, most of the emissions are con-

centrated in the indirect character developed by third par-

ties to supply goods and services to companies (e.g. con-

sultants).

In capital markets there is a process to audit the infor-

mation that entities provide to investors. Similarly, it is

necessary in the field of carbon markets for two reasons.

On the one hand, to verify that inventories provided its

investors has been developed according to a certain stan-

dard. And on the other hand, carbon assets should gener-

ate enough confidence in their potential investors, for

which is necessary that such units are generated accord-

ing to the requirements of the regulatory regime under

which they are traded. This is especially important for

CER credits or other units generated under the umbrella

of the voluntary markets, such as the Gold Standard or

the Voluntary Carbon Standard.

As a proof of the importance that the information audit

related to the carbon inventories is reaching, the Interna-

tional Auditing and Assurance Standard Board (IAASB),

dependent organism of the International Federation of

Accountants (IFAC), has approved a final draft of the

ISAE 3410 (2011) regulation, Assurance Engagements

on Greenhouse Gas Statements, which is consistent with

ISAE 3000, Assurance Engagements Other than Audits

or Reviews of Historical Financial Information.

ISAE 3410 recognize that, in many cases, the audit of

emissions would require a report with a limited scop e. In

any case, the standard does not prescribe specific proce-

dures, as in the case of financial reporting, but the par-

ticularity of the object of the analysis implies that the

auditor should select the most appropriate ones for the

circumstances of the regime under which these emissions

are measured, based on the valuation of errors risks in

these emissions reports. In the report, both the limited

scope and a reasonable insurance should include a sum-

mary of the procedures.

7. Carbon Reporting

The investors’ demands for information on sustainability

are growing. Within these demands, the one related to the

emissions of bodies is becoming stronger, having several

reasons for this interest, including:

 Institutional investors, such as investment funds, that

are demanding this information to develop investment

strategies between companies with a certain sustain-

ability profile.

 Certain international indexes such as the Dow Jones

Sustainability Indexes, Global 100, Best in Class,

among others, that specifically require such informa-

tion.

 Some governments that require certain bodies to pub-

lish their emissions reports, as in the case of the state

of California, New South Wales or the UK [9].

Information on emissions can be issued in several

ways, among which we must highlight three. First, the

standards of the Global Reporting Initiative (GRI), under

which most sustainability reports are drafted. Under the

GRI, companies must report their emissions, although

they do not require a very thorough detail (GRI, 2006).

Climate Change Challenges to Accounting

A second mechanism in which major global corpora-

tions collaborate is the Carbon Disclosure Project (CDP),

promoted in the year 2000 by 35 institutional investors

that were aware of the risks that were not covered by

investments in sectors of higher environmental impact, as

well as the impact of new regulations, which could affect

profitability adversely. Th e number of members has con-

tinued to increase, reaching—in the last survey in 2012—

534 investors, with a total volume of assets of 64 trillion

dollars.

The CDP questionnaire is completed by over 3000

companies worldwide. This questionnaire comprises 5

areas: risks and opportunities of climate change, account-

ing of GHG emissions, additional issues on GHG account-

ing, performance and corporate governance. Based on

these responses, the CDP has created the Carbon Disclo-

sure Leadership Index (CDLI).

There is now a third effort to improve and expand in-

formation on climate change provided by the companies

conducted by the Climate Disclosure Standards Board

(CDSB) [12], whose promoters include the CDP. Its aim

is to standardize information on climate change in com-

pany reports. Specifically, the proposal is to include this

information in the management report, based on the prin-

ciples issued by the accounting regulators (IASB) or re-

lated to sustainability (World Resources Institute, WRI,

World Business Council for Sustainable Development,

WBCSB, and International Organization for Standardiza-

tion, ISO). Their proposal of a conceptual framework is

still in a draft phase, but in its contents we can differenti-

ate:

1) Management commentary, including: a) strategies

developed by the company to reduce the impact of cli-

mate change on the company itself; b) main risks and op-

portunities for the business related to climate change; c)

corporate governance, understanding the decision-mak-

ing level within the organization and controlling the ac-

tions related to climate change; d) yield: presentation of

charts and graphs of all relevant indicators to judge the

impact on costs and benefits for the company of the set

of actions and their effects on climate change; e) regula-

tory regimes affecting the company.

2) Statement of Greenhouse Gas Emissions, which col-

lect emissions for different scope levels. For comparative

purposes, not only should it include the statement for the

year, but it should also the figures of the previous year

and the baseline data. To complement this, carbon inten-

sity indicators should be included (e.g. tone/€ of revenue),

for the year, the year prior and the baseline. These inven-

tories could be sup pl e mented wit h sect or a ve rages.

3) The Notes to the Greenhouse Gas Emissions State-

ment would provide an explanation to properly interpret

the inventory: a) information p olicy related to the invent-

tory: GHGs included, businesses/activities/geographical

area of the group, or tho se that are being measured or ex-

cluded, levels of scope and/or their limits, their conver-

sion factors and sources or standards, explanation of the

baseline, verification of the compensation and their sour-

ces; b) emission Inventory according to different sources

for each of the levels of the scope.

4) Independent Assurance Report: which expresses its

scope, that is, what inventory information has been veri-

fied, the purpose for which the audit report was prepared,

the standards that have been followed for the measure-

ment of the inventory, the audit process, limitations, and,

lastly, the auditor’s opinion on whether the inventory in-

formation fairly reflects the reality of the company’s

emissions. To do this, the standards that IAASB will is-

sue in the future should be considered.

8. Conclusions

Throughout this paper we have shown how the climate

change economy affects the external information pro-

vided by the company. For operations with carbon units

and the adaptation market, international law provides a

clear framework for accounting purposes, as we have dis-

cussed above. However, the most important matter of a

low-carbon economy remains pending, that is, the nature

and the accounting reflection of the carbon assets from

mitigation markets.

The IASB and the FASB should complete the project

related to the emissions markets. This regulation should

cover not only the classic carbon assets (EUAs and CER s) ,

but it should have a certain degree of abstraction that is

sufficient to consider the derived assets from any market,

both of a regulated and voluntary character. In any case,

the accounting treatment of emissions rights should be

based on th e entity’s business model and intended use of

the rights.

The academic world has an important role, supporting

the development of these standardization processes. Gi-

ven the variety of existing practices, it would be useful to

shed light, through research projects, on the most con-

venient practices for the decision-making processes of

the users. However, research in this area should not only

cover the standardization of financial information. As we

have seen above, the information on carbon inventories,

as well as the information regarding the risks and strate-

gies related to climate change, will be incorpo rated to the

information supplied by the bodies. Accounting profess-

sionals should also be partly responsible for what char-

acteristics this information should have, as well as to

where and how it is provided.

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