1. Trasporti marittimi �� � Enrico Musso (musso@economia.unige.it; www.enricomusso.it)
Francesco Parola (parola@economia.unige.it)
Facoltà di Economia
Università di Genova
2. 2 Riferimenti bibliografici essenziali English:
C.Th.Grammenos (2002), The Handbook of Maritime Economics and Business, London: Lloyds’ of London Press
Chapters: to be chosen among # 1; 2; 3; 8; one in 11, 12, 13; one in 21, 23, 27; one in 33, 34
K.Cullinane, W.K.Talley, Port Economics, Elsevier
Italiano
U. MARCHESE, Argomenti e problemi di economia dei trasporti marittimi, Genova, Bozzi 2001
capp. 1, 3, 14, 21, 23, 26
E. MUSSO, Città portuali: l’economia e il territorio, Milano, Angeli, 1996, cap. 2
S. SORIANI, Porti, città e territorio costiero, Bologna, il Mulino, capp. 3, 9
Il materiale proiettato durante le lezioni sarà messo a disposizione per via telematica
3. 3 Maritime transport in the global economy Shipping is one of the most international industries
Key role in transport industry, world trade and globalisation
4. 4
5. 5
6. 6 Maritime transport in the global economy Shipping is one of the most international industries
Key role in transport industry, world trade and globalisation
7. 7 Import per transport mode, EU15, 2000
8. 8 Maritime transport in the global economy Shipping is one of the most international industries
Key role in transport industry, in world trade and in globalisation
9. 9 Seaborne trade and GNP
10. 10 Maritime transport in the global economy Shipping is one of the most international industries
Key role in transport industry, in world trade and in globalisation
11. 11 Shipping and the world economy The growth of the world economy and the growth in world seaborne trade interact through labour specialisation and widening of markets
High sensitivity to the world economy and to “events” <3><4>
12. 12 The growth in world seaborne trade �(millions of tons)
13. 13 The world seaborne trade, 1980-2000�(millions of tons)
14. 14 Shipping and the world economy The growth of the world economy and the growth in world seaborne trade interact through labour specialisation and widening of markets
High sensitivity to the world economy and to “events”
15. 15 Industrial cycles and sea trade
16. 16 Sea trade elasticity to the industrial production
17. 17 Macro-regions and world product
18. 18 Developments in shipping and possible excesses of globalisation
19. 19 Some dramatic changes... In the economy
The boost of seaborne trade (from 525 Mt in 1950 to 5800 Mt in 2000)
Spatial relocation of production
The growing importance of logistics
In maritime transport
Ships’ size
Specialisation
Unitisation (containerisation)
Transhipment
In the industrial organization of transport industry:
Cooperation: SAs, M&As, vertical integration,
control of intermodal and logistic cycles , logistics outsourcing
20. 20 The demand for maritime transport ?
Differences in prices of goods must be higher than transport costs
21. 21 The demand for maritime transport Differences in prices of goods must be higher than transport costs
?
Differences in prices: the demand is influenced by:
the world economy:
growth in I/E and growth in maritime transport <>
cycles in transport demand and in the world economy <> and in different industries
elasticity of seaborne trade to the industrial production <>
price of goods in different markets
other (geographical or political) reasons:
length of trips
political events (wars, terrorism)
free-trade oriented vs. protectionist policies
22. 22 The demand for maritime transport ?
Differences in prices of goods must be higher than transport costs
23. 23 The demand for maritime transport Differences in prices of goods must be higher than transport costs
?
Transport costs: the demand is influenced from:
Price (freight)
speed
reliability
safety
24. 24 Innovation and costs in seaborne transport Technical / organisational innovation:
Propulsion
sail
steam (1860-1920) (=> reliability, liners)
oil (1910-1960)
Size
(XX century) (economies of scale and optimal size)
tanker av. Da 4,000 tons a 95,000 (peaks 500,000) (costs: -75%)
dry bulk from 20,000 to 2-300,000
grain from 25,000 to 60,000
Unitisation
Specialisation
Cargo handling
intermodality/transshipment
25. 25 Technical innovation and maritime transport supply
26. 26 Cost changes 1960-1990
27. 27 The elasticity of maritime transport demand Transport demand is a derived demand
For transport of goods/commodities, it depends on:
the demand elasticity of goods/commodities transported
the ratio of transport costs to the costs of transported goods
the replaceability of maritime transport or of specific routes
For transport of passengers, it depends on:
Need/reason for the travel (“demand elasticity” of the product)
Ratio of the generalised cost to the revenue or to the cost
Replaceability
Of modes
Of destination
28. 28 The organisation of the transport cycle
29. 29 The markets involved in maritime economics
30. 30 The markets of maritime transport
31. 31 Maritime transport within the transport system The world fleet (ships over 100t):
Half XIX century (1860): 9 m t
Y2K: 500 m t ; 83,000 ships (cargo 53%, 95% tons)
LONG ROUTES (Deep Sea Shipping)
20,000 ships
(competition: air: 0,1%)
SHORT/MEDIUM ROUTES (short sea shipping)
Short Sea Shipping (ferry, etc.) 4-6,000 DWT; rivers and canals
(competition: road, rail)
Link in the intermodal / complex cycle (transhipment: H/S, R)
Cooperation and competition:
within maritime transport
between different routes
between modes
32. 32 A look at the world fleet
33. 33 Which goods are transported by sea? Raw material: oil, iron, coal
Agricultural: grain, sugar, refrigerates
Industrial material: rubber, forest, concrete, textiles, chemical products
Manufactured products: plants, machinery, cars, appliances, consumption goods
Industries
Energy + steel/metal 70% ca.
34. 34 Seaborne trade by economic activity
35. 35 Quantities and transport service Parcel Size Distribution (PSD)
36. 36 Liner services vs. services on demand (tramps) LINERS
Small shipments
The carrier owns the ship
Mainly general cargo:
Container (lo-lo)
ro-ro
multipurpose
Complex management (overhead, holds, timetables, routes)
Higher fixed costs
Agreements to limit competition TRAMPS
Big shipments (bigger than ships)
Ther carrier :
Owns the ship
Rents it through
LT e ST chartering
spot
Mainly bulk cargo:
Tankers
Dry bulk carriers
management is simpler
Fixed costs are lower
37. 37 Transport supply in maritime transport: tramp vs. line Differences in management
Bulk: different forms of availability of the ship for the shipper
ownership
l.t., s.t. chartering
spot
Liner: much more complex (overhead, holds, timetables, routes, etc.); higher fixed costs; agreement to limit competition (conferences, then strategic alliances)
38. 38 Maritime transport supply
39. 39 Prices in maritime transport markets
40. 40 Prices over time
41. 41 The optimal sizing of ships Ships normally achieve relevant economies of scale
The ship should be as big as possible, but:
the bigger the ship is, the harder to fill the hold
there are often physical constraints (ports and channels)
the bigger the ship, the longer the stops in ports (the higher the opportunity costs of time spent in ports)
A trade off is needed between the economies of scale of the ships and the growing costs of the ports node
42. 42 Economies of scale: some evidence
43. 43 The optimal sizing of ships
44. 44 The optimal sizing of ships
45. 45 The optimal sizing of ships The optimal size is bigger if / when:
Fixed costs are more relevant
The trip is longer
The rate of moves at the terminal is less flexible
The optimal sizing of the ships has relevant consequences on the size of the terminal (lecture 14) and on vertical integration (lecture 15)
