Thursday, April 5, 2018

Hollowing Out India


Should India develop and sustain certain capacities, or allow them to be eroded?


Shyam Ponappa   |   April 5, 2018



A society’s functional capacity can “hollow out” in many ways. The following examples illustrate how self-imposed policies, regulations or practices subvert our capacity. To avoid this, our governments and polity need to adopt “rules of the game” based on constructive perspectives that maximise benefits. Our present approach is often restrictive and rationing, i.e., scarcity oriented.
A path-breaking article in the Economic and Political Weekly four years ago highlighted the fall of India’s share of manufacturing in total manufactured goods.1 Although manufacturing exports were rising, imports grew faster than exports resulting in a hollowing out, with disproportionate gains to foreign suppliers. Manufacturing contribution to gross domestic product (GDP) remained at 14-16 per cent since the 1980s, compared with China’s growth of 34 per cent, Thailand’s 40 per cent, or Malaysia’s 24 per cent. Employment in manufacturing remained at 12 per cent from 2000 to 2009, while contribution to labour productivity growth was only 6 per cent, compared with China’s 32 per cent and Malaysia’s 68 per cent.

The World Economic Forum and A.T. Kearney's "Readiness for the Future of Production Report 2018" is more positive, although with a warning regarding the future. Countries are classified along two dimensions, “Drivers of production”, and “Complexity and scale of production structure”.




Source: http://www3.weforum.org/docs/FOP_Readiness_Report_2018.pdf
Note: Average performance of the top 75 countries (weighted average driver score, weighted average structure score) is at the intersection of the four quadrants to create the archetype borders.










On the drivers (vertical axis), India is a little below middling, while in scale and complexity (horizontal axis), India is somewhat better than middling.
India is in the “Legacy” quadrant (strong base, but at risk for the future) including Hungary, Mexico, the Philippines, Russia, Thailand, and Turkey among others, and is ranked ahead of Russia, Brazil, and South Africa.



Chart 2: Future of Productivity Readiness
Some legacy Countries & Brazil - Rank
Structure of
Complexity

Production
 & Scale

Hungary
17
42
India
30
44
Mexico
22
46
Philippines
28
66
Russian Federation
35
43
Thailand
12
35
Turkey
32
57
Nascent Countries
Brazil
41
47

The commerce ministry is reportedly taking remedial action, applying recommendations by the same author who wrote about the hollowing out of manufacturing, Dr Banga, in her subsequent capacity as head of trade competitiveness at the Commonwealth Secretariat. Her recommendations are to link into specific Global Value Chains (GVCs).2 India could benefit significantly if these initiatives are followed through, as with the  Automotive Mission Plan 2006-2016, now in its second 10-year cycle. Automobile assembly jobs grew from 10 million in FY06 to 32 million in FY16. This collaborative effort between the Ministry of Heavy Industries and Public Enterprises and the Society of Indian Automobile Manufacturers is a road map for sectors that need urgent attention, such as solar energy and wireless broadband. This is why politicians need to focus on working with government, industry and citizens on shared objectives, instead of destroying possibilities of working together through perpetual confrontation.


Hollowing Out Happens In Other Ways

One way is through equipment imports.
 Take solar equipment imports: The issue for India, with so much insolation together with other requisites such as technical skills and production capabilities, is how to formulate policies and regulations to support innovation in solar energy use, with incentives for R&D and manufacturing/marketing for such products and practices. The entire value chain has to be designed and set up comprehensively, instead of our typical piecemeal and/or episodic, or half-baked approach. Without this, such imports ensure that India, among the top five countries in terms of demand, remains a captive market for foreign producers. Similarly, domestic manufacturers of conventional energy equipment face foreign competition that has access to subsidised material and inputs, export incentives, low-cost funds, and better infrastructure. Imported equipment for solar or conventional fuels lasts for 25 years, blocking the best markets for developing local production capacity. This hamstrings local suppliers, who already lack comparable policy support, including government procurement and country-backed funding. In this situation, local production can rarely develop, if at all, to supply large but inaccessible local markets. We have to recognise all this, devise remedial ways, and follow through with implementation.

Competitive bids and auctions result in a race to the bottom focusing on the short run and hopes of cashing out, creating a mirage that prevents building sustainable capacity. A number of energy companies have done this, although several have stalled before they could sell out. Low bids below spot electricity prices obstruct genuine capacity building. For renewable energy, feed-in tariffs are unreasonably low, subverting their viability. One example is a Chinese-Japanese consortium bid in the United Arab Emirates at $0.0242/kWh (about Rs 1.61). Such bottom-fishing ensures that no projects succeed, whether for conventional or solar/renewable energy.
A variant is through controlling materials that go into batteries and electric vehicles, such as lithium, cobalt, nickel or manganese, or copper for charging equipment. For example, Chinese companies produce 77 per cent of refined cobalt.3 Therefore, decisions such as the promotion of electric vehicles over conventional vehicles need a life-cycle analysis, including the sourcing of raw materials.
Yet another example is how India’s policies hamper the design and production of wireless equipment for telecommunications and broadband. India has the chip-designing and production capability for Software-Defined Radios (SDRs) for wireless communications except for the fabrication of chips and chipsets (similar to Qualcomm), and is a huge market for such equipment. Yet, as evidenced by entrepreneurs designing SDRs and TV White Space devices, it is difficult even to get access to the spectrum required for testing devices. Innovators cannot begin to design commercial solutions and win without radical changes to our policies and practices, extending through funding at the intermediate stage, and access to domestic markets. Who will buy from unproven undertakings in an oligopolistic market dominated by a few international giants?
Many more areas — agriculture, finance, the Internet — have similarly obstructive rules and practices. As felicitous policies and regulations boost capacity, we need to adopt tariffs and local sourcing aligned with World Trade Organization norms, with the emphasis on permissible incentives, such as waiving excise for fuel and customs for exports, interest subvention, end-to-end financing, value chains, and access to markets. We need barriers and umbrellas, with heavy emphasis on the latter.


Shyam (no space) Ponappa at gmail dot com
1. Rashmi Banga, “Trade Facilitation and ‘Hollowing Out’ of Indian Manufacturing, Economic & Political Weekly 49, no. 40 (2014). www.epw.in/journal/2014/40   |   http://www.epw.in/journal/2014/40/notes/trade-facilitation-and-hollowing-out-indian-manufacturing.html

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