Global Warming

Table 11.4

Estimates of potential global greenhouse gas emission reductions in 2010 and in 2020Historic emission

Historic C

eq

Potential emission Potential emission

in 1990

annual growth rate in reductions in 2010 reductions in 2020

Net direct costs per tonne

Sector

(MtC

eq

yr

−^1

)

1990–1995(%)

(MtC

eq

yr

−^1

)

(MtC

eq

yr

−^1

)

of carbon avoided

Buildings

a

CO

only 2

1650

1.0

700–750

1000–1100

Most reductions are available atnegative direct costs.

Transport

CO

only 2

1080

2.4

100–300

300–700

Most studies indicate net direct costsless than $US 25/tC but two suggestnet direct costs will exceed $US 50/tC.

Industry

CO

only 2

2300

0.4

Energy efficiency

300–500

700–900

More than half available at net negative

Material efficiency

∼

200

∼

600

direct costs. Costs are uncertain.

Industry

Non-CO

gases 2

170

∼

100

∼

100

N

O emissions reduction costs are 2

$US 0–10/tC

eq

.

Agriculture

b

CO

only 2

210

Most reductions will cost between

Non-CO

gases 2

1250–2800

n.a

150–300

350–750

$US 0 and 100/tC

eq.

with limited

opportunities for negative net directcost options.

Waste

b

CH

only 4

240

1.0

∼

200

∼

200

About 75% of the savings as methanerecovery from landfills at net negativedirect cost; 25% at a cost of$US 20/tC

eq

.