brexit: the facts behind opportunities & challenges...
TRANSCRIPT
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 1
supported by:
Background information
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments
Royal Institution, London|8 May 2017
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 2
EuroScience, the Royal Institution and Academia Europaea with support from Elsevier are organising an open discussion on “Brexit: the facts behind opportunities & challenges for both the UK & European Science Establishments”.
This booklet is intended to inform the debate. It provides factual data in three sections covering:
1) Association arrangements for the participation of non-EU countries in Horizon 2020 (page 3)
2) Flows of EU funding to the UK under Framework Programme 7 and Horizon 2020 (page 6)
3) Internationalisation of Higher Education and Research (page 14)
Data have been collected from various sources including a Royal Society publication; Eurostat; EC and ERC publications and statistics; the Higher Education Statistics Agency (HESA); individual institutions; and a report of HM Treasury.
Dr Luc van Dyck, Ed.
April 24, 2017
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 3
Section 1. Association arrangements for the participation of non-EU countries in Horizon 2020
Article 7 of the Regulation establishing Horizon 2020 opens the possibility to non-EU countries to be associated to the Framework Programme (FP) such that legal entities from Associated Countries can participate under the same conditions as legal entities from the EU Member States1. Further, Associated Countries have the right to send observers to meetings of all the different configurations of the committee which is responsible for the implementation of Horizon 2020 and to the Board of Governors of the JRC, as well as the right to participate in all ERA related bodies as an observer.
Article 7 specifies the countries that are eligible to become associated to Horizon 2020:
• acceding countries, candidate countries and potential candidates;
• countries or territories covered by the European Neighbourhood Policy, the foreign relations instrument of the EU addressing those countries to the East and South of the European territory of the EU (e.g. Israel); and,
• members of the European Free Trade Association (EFTA), an intergovernmental organisation set up for the promotion of free trade and economic integration to the benefit of its four Member States: Iceland, Liechtenstein, Norway and Switzerland.
The legal bases for the association to Horizon 2020 are agreements signed between the third country and the 28 EU Members States which cover (notably) scientific cooperation and allow participation in EU programmes. The Horizon 2020 association agreement, including the financial contribution to the budget, is then negotiated between, and signed by the third country and the European Commission.
A standard rate for the financial contribution of associated countries to the framework Programmes does not exist. In principle, the Commission aims to use a simple proportionality factor, calculated every year, obtained by establishing the ratio between the gross domestic product (GDP) of the third country and the sum of GDP of all EU Member States. This is the case for Israel and Switzerland, for instance. Norway, thanks to the EEA Agreement (see below) and acceding countries benefit from a slightly more favourable rate including their own GDP to the sum of GDPs of all EU Member States, thereby reducing the proportionality factor.
1 Official Journal of the European Union. REGULATION (EU) No 1291/2013 OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL of 11 December 2013establishing Horizon 2020 - the Framework Programme for Research and Innovation (2014-2020) and repealing Decision No 1982/2006/EC
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 4
Some countries benefit from an additional rebate because they are expected to perform poorly in the Framework Programme.
Amongst those associated to Horizon 20202, two countries could be considered as relevant examples for the United Kingdom post-Brexit because they too are highly-developed western European economies: Norway and Switzerland. However, both of them participate in the EU’s Single Market whilst the pre-negotiation rhetoric of the UK Government seems to exclude it.
The legal base for Norway’s participation in Horizon 2020 finds its roots in the European Economic Area (EEA) Agreement, which enables three of the four EFTA Member States (Iceland, Liechtenstein and Norway) to participate in the EU’s Single Market. This agreement notably covers the so-called “four freedoms”: free movement of goods, right of establishment and freedom to provide services, free movement of capital, and freedom of movement for workers.
Switzerland decided not to ratify the EEA Agreement. The country therefore had to negotiate with the EU Member States a series of bilateral treaties allowing participation in the Internal Market. The Bilateral I agreements, which notably include the free movement of workers and science, are expressed to be mutually dependent. If any one of them is denounced or not renewed, they all cease to apply. Between 15 September 2014 and end of 2016, having failed to ratify the Protocol on the extension to Croatia of the Free Movement of Persons Agreement between the EU and Switzerland, the Horizon 2020 association agreement was downgraded to partial association allowing access to parts of Horizon 2020 only2. Full association was restored as of 1 January 2017 after ratification of the protocol by the Swiss Federal Council.
Thus, UK participation in future Framework Programmes is subject to the negotiation of an agreement between the UK and the EU Member States covering scientific cooperation and allowing participation in EU programmes. Whether an agreement different from those in place with Norway or Switzerland, notably regarding the participation in the Single Market and the free movement of workers, can be reached remains to be seen. Furthermore, legal issues such as the control by the Court of Justice of the European Union, the power of audit by Commission agents and the European Court of Auditors over all grant beneficiaries, contractors and subcontractors who have received Union funds, and the power of investigation of the European Anti-Fraud Office (OLAF) may constitute additional hurdles for the participation of the UK in future Framework Programmes.
Given the size of its economy, the participation of the UK as FP Associated Country would be expensive. Under FP7 and Horizon 2020, the UK was a net beneficiary of EU R&D funding thanks primarily to the rebate of the UK on its contribution to the global EU budget. In 2015,
2 European Commission. Associated Countries. http://ec.europa.eu/research/participants/data/ref/h2020/grants_manual/hi/3cpart/h2020-hi-list-ac_en.pdf
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 5
the UK share of the EU budget revenue after subtraction of the UK rebate was 12.57 %3, which includes the GDP-based contribution, the VAT-based contribution, and the UK share of the EU `Traditional Own Resources´ (TOR) based on custom duties. The very same year the UK was the most successful participant country in Horizon 2020, receiving 15.9 % of the Horizon 2020 allocated funds4. In 2015, the EU-28 GDP amounted to approximately 14,714 billion euro whilst the UK GDP reached approximately 2,580 billion euro5. The simple proportionality factor mentioned above (UK GDP/[EU-28 GDP – UK GDP]) indicates that the UK contribution as `Associated Country´ would have been approximately 21.26 % of the Horizon 2020 budget in 2015. In other words, from net beneficiary as EU Member State the UK would have become net contributor to Horizon 2020. The non-monetary advantages of participating in the EU FP (attractiveness of the country as a R&D hub, increased opportunities for cooperation etc.) may however compensate, at least in part, the financial burden.
3 HM Treasury. European Union Finances 2015: statement on the 2015 EU Budget and measures to counter fraud and financial mismanagement.
4 European Commission. Horizon 2020 Monitoring Report 2015
5 eurostat. Gross domestic product at market prices. http://ec.europa.eu/eurostat/tgm/refreshTableAction.do?tab=table&plugin=1&pcode=tec00001
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 6
Section 2. Flows of EU funding to the UK under FP7 and Horizon 2020
The UK is a net contributor to the EU budget. However, as depicted in Chart 1, it receives a greater amount of EU research funding (including both funding from the FP and Structural Funds for R&D activities) than it contributes. The Structural Funds for R&D activities represent 22 % of the total EU R&D funding received by the UK.
CHART 1: FLOW OF FUNDS BETWEEN THE UK AND EU 2007-2013 (€ BILLION)6
During the period 2007-2013, FP7 funding represented 3 % of the total (public and private) UK expenditure on R&D. The total EU funding would represent slightly more if Structural Funds for R&D activities were included in the figure.
6 Royal Society. UK research and the European Union: The role of the EU in funding UK research. https://royalsociety.org/~/media/policy/projects/eu-uk-funding/uk-membership-of-eu.pdf
8,8
5,4
38,7
72,3
EU funding to the UK
UK Contribution to the EU
0 10 20 30 40 50 60 70 80 90
R&D&I actions Other actions
Total: €77.7bn
Total: €47.5bn
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 7
CHART 2: UK EXPENDITURE ON R&D BY SOURCE OF FUNDING 2007-20136
The main beneficiaries of EU funding for R&D in the UK are universities. Together with research organisations, they receive almost 80 % of the funds.
CHART 3: SECTORS RECEIVING FP7 FUNDING IN THE UK 2007 – 20136
In 2013/14 EU funding represented 9.8 % of the total research income of UK universities compared to 6 % in 2009/10. The global income of universities increased by 3.5 % over this period of time, an increase which can be entirely assigned to the EU funding as shown in Chart 4.
3%5%
17%
11%
11%
8%
45%
FP7 funding
Charities
Other sources
Government departments
Research Councils
Higher Education FundingCouncils
Business
Total expenditure: €226.3 bn
71%
8%
2% 5%
13%
1%
Total funding: €6.9bn
Universities
Research organizations
Public bodies
Other businesses
SMEs
Others
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 8
CHART 4: RESEARCH INCOME OF UK UNIVERSITIES IN 2009/10 AND 2013/146
UK universities are, by far, the most successful amongst those participating in the FPs. In 2015 five of them were ranked amongst the top-10 universities in terms of EU funding (table 1). In contrast, UK research organisations perform rather poorly, notably compared to French and German organisations, illustrating the different structures of the research systems of these countries (table 2). The UK also ranked two companies amongst the top 10 private beneficiaries in 2015 (table 3). In contrast to the two other rankings the latter one, however, is more volatile and less meaningful given the low number of grants.
6,87,04
0,85 0,89
3,863,63
0,410,69
0,46 0,510,17 0,23
1,11 1,11
£ bn
Overall funding 2009-2010 Overall funding 2013-2014
Other public sources 2009-2010 Other public sources 2013-2014
Government science budget 2009-2010 Government science budget 2013-2014
EU funding 2009-2010 EU funding 2013-2014
Private sector 2009-2010 Private sector 2013-2014
Other sources 2009-2010 Other sources 2013-2014
Charities 2009-2010 Charities 2013-2014
EU funding
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 9
TABLE 1: TOP-10 HES ORGANISATIONS IN TERMS OF EU FUNDING UNDER HORIZON 2020 IN 20156
Rank Organisation Country Grants EU financial contribution (€)
1 University of Cambridge UK 114 73,543,045
2 University College London UK 104 73,529,176
3 University of Oxford UK 87 63,193,866
4 EPF Lausanne CH 72 59,031,850
5 Technical University of Delft NL 69 51,230,026
6 Imperial College UK 72 51,221,257
7 University of Edinburgh UK 47 42,413,753
8 University of Copenhagen DK 73 40,850,818
9 ETH Zurich CH 60 35,245,862
10 Catholic University of Leuven BE 61 35,180,663
TABLE 2: TOP-10 AND TOP UK RESEARCH ORGANISATIONS IN TERMS OF EU FUNDING UNDER HORIZON 2020 IN 20156
Rank Organisation Country Grants EU financial contribution (€)
1 CNRS FR 162 113,283,521
2 Fraunhofer Gesellschaft DE 144 81,075,752
3 CEA FR 77 69,526,864
4 MPG DE 78 62,003,850
5 CNR IT 80 42,042,944
6 CISIC SP 82 36,021,827
7 DLR DE 57 32,636,040
8 INSERM FR 43 32,583,903
9 IMEC BE 19 27,961,208
10 Forschungszentrum Jülich DE 24 22,750,739
…16 Natural Environment Research Council
UK 21 13,991,657
…33 Medical Research Council UK 15 9,363,656
34 TWI Limited UK 13 9,018,474
…43 John Innes Centre UK 8 6,990,243
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 10
TABLE 3: TOP-10 RESEARCH ORGANISATIONS IN TERMS OF EU FUNDING UNDER HORIZON 2020 IN 20156
Rank Organisation Country Grants EU financial contribution (€)
1 BORREGAARD AS NO 3 26,664,439
2 Clariant Produkte GmbH DE 1 22,451,450
3 SIEMENS AG DE 10 17,832,259
4 GEANT LIMITED UK 1 16,780,315
5 ENERGOCHEMICA TRADING AS SL 1 13,441,418
6 SOLIDPOWER SPA IT 2 10,254,375
7 ASML NETHERLANDS B.V. NL 2 9,705,374
8 ITM POWER (TRADING) LIMITED UK 4 9,459,880
9 ACCIONA INFRAESTRUCTURAS S.A. SP 9 9,128,714
10 ATOS SPAIN SA SP 22 8,991,774
For 2014 and 2015 the UK was the second recipient of EU FP funding after Germany (chart 5). In relation to the national GDP the UK was the most performant of the large EU countries but was outperformed by small countries such as The Netherlands, Belgium, Denmark, Sweden or Austria.
CHART 5: EU FUNDING PER COUNTRY FOR GRANTS FROM HORIZON 2020 PROJECTS FOR 2014 & 2015 (€ MILLION)6
43
9,5
74
4,9
22
,3
27
,5
48
,7
96
,6
38
7,2
57
,4
31
5,9
16
28
,6
28
21
,3
31
8,5
87
,3
28
2,3
12
76
,3
18
,4
17
,4
39
,8
10
12
46
,7
13
9,3 26
9,5
60
,8
40 84
13
72
,4
51
5,1
24
51
,7
Au
str
ia
Be
lgiu
m
Bu
lga
ria
Cro
ati
a
Cy
pru
s
Cz
ec
h R
ep
ub
lic
De
nm
ark
Es
ton
ia
Fin
lan
d
Fra
nc
e
Ge
rma
ny
Gre
ec
e
Hu
ng
ary
Ire
lan
d
Ita
ly
La
tvia
Lit
hu
an
ia
Lu
xe
mb
ou
rg
Ma
lta
Ne
the
rla
nd
s
Po
lan
d
Po
rtu
ga
l
Ro
ma
nia
Slo
va
kia
Slo
ve
nia
Sp
ain
Sw
ed
en
UK
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 11
The comparison of the share of EU funding received by the UK in 2014 and 2015 for the various action lines of Horizon 2020 identifies the areas where the UK is most competitive (table 4). The best scores are obtained by ERC and MSCA grantees, highlighting the essential contribution of foreign researchers to the UK research system. Since the onset the ERC is an uninterrupted success story for the UK both in terms of grants and funding received (charts 6 and 7). The UK also performs very well in the future and emerging technologies (FET; chart 8), the health-related area and, to a lesser extent, the innovation in SMEs. Finally, the UK receives significant funding from Horizon 2020 under the research infrastructure headline (chart 9). The possible non-participation of the UK in future FPs would not impact on its participation in the large EIROforum research infrastructures (CERN, EMBL, ESA, ESO, ESRF, EUROfusion, European XFEL and ILL) which are intergovernmental organisations but may affect its participation in the newly created or planned infrastructures, notably the decentralised ones.
TABLE 4: FLOW OF EU FUNDING TO THE UK FOR THE THREE MAIN PILLARS OF HORIZON 2020 FOR 2014 & 20156
Horizon 2020 Participations in grants
EU funding (€ million)
Share of EU funding
Total 4977 2451.7 15.4 %
Excellent Science
ERC 484 707.5 21.5 %
FET 142 78 16.3 %
MSCA 1436 375.9 22.8 %
RI 186 86.3 14.1 %
Industrial Leadership
Leadership in Enabling and Industrial Technologies 547 365 11.6 %
Innovation in SMEs 200 79.7 15.2 %
Societal Challenges
Health, Demographic Change and Well-Being 391 231.5 18.3 %
Food Security, Sustainable Agriculture and Forestry, Marine, Maritime and Inland Water Research, and
the Bio-economy
225 78.9 10.5 %
Secure, Clean and Efficient Energy 307 166.5 12.5 %
Smart, Green and Integrated Transport 284 109.6 10.6 %
Climate Action, Environment, Resource Efficiency and Raw Materials
221 90.6 12.5 %
Europe in a changing world – Inclusive, Innovative and Reflective Societies
123 38.6 15.0 %
Secure Societies – Protecting freedom and security of Europe and its citizens
146 55.4 14.1 %
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 12
CHART 6: ERC GRANTED PROJECTS PER COUNTRY OF HOST INSTITUTION7
CHART 7: NUMBER OF ERC GRANTS AND EU FUNDING PER COUNTRY IN 2014 & 20156
7 ERC Statistics. https://erc.europa.eu/projects-and-results/statistics
0
100
200
300
400
500
600
700
800U
nit
ed
Kin
gdo
m
Ger
man
y
Fran
ce
Net
her
lan
ds
Isra
el
Swit
zerl
and
Spai
n
Ital
y
Be
lgiu
m
Swed
en
Au
stri
a
De
nm
ark
Fin
lan
d
Ire
lan
d
Po
rtu
gal
No
rway
Hu
nga
ry
Gre
ece
Po
lan
d
Cze
ch R
epu
blic
Turk
ey
Cyp
rus
Esto
nia
Ro
man
ia
Ice
lan
d
Bu
lgar
ia
Cro
atia
Slo
ven
ia
Serb
ia
Luxe
mb
ou
rg
Mal
ta
Slo
vaki
a
2007 2009 2010 2011 2012 2013 2014 2015 2016
54 7
2
0 2 5 12
53
1
37
25
1
35
9
6 13 3
1
14
2
0 0 3 1
20
7
5
30
3 1 2
14
9
63
48
4
82
,6 10
8,1
0 2,2
2,3 19
,9
83
,2
2
58
,8
37
4,3
56
2,3
4,7 15
,7 44
,4
16
5,8
0 0 5,9
1,6
30
5,4
5,1
47
,6
3,6
0,4 2,1
18
9,2
84
,6
70
7,5
Au
str
ia
Be
lgiu
m
Bu
lga
ria
Cro
ati
a
Cy
pru
s
Cz
ec
h R
ep
ub
lic
De
nm
ark
Es
ton
ia
Fin
lan
d
Fra
nc
e
Ge
rma
ny
Gre
ec
e
Hu
ng
ary
Ire
lan
d
Ita
ly
La
tvia
Lit
hu
an
ia
Lu
xe
mb
ou
rg
Ma
lta
Ne
the
rla
nd
s
Po
lan
d
Po
rtu
ga
l
Ro
ma
nia
Slo
va
kia
Slo
ve
nia
Sp
ain
Sw
ed
en
UK
Number of grants Funding (€ million)
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 13
CHART 8: NUMBER OF FUTURE AND EMERGING TECHNOLOGIES (FET) GRANTS AND EU FUNDING PER COUNTRY IN 2014 & 20156
CHART 9: NUMBER OF RESEARCH INFRASTRUCTURE GRANTS AND EU FUNDING PER COUNTRY IN 2014 & 20156
31
29
3 3 1
7
17
1
20
96
15
8
23
8 7
94
0 0 0 0
37
9 13
2 0
5
76
31
14
2
14
,5
12
,3
0,2 1,5
0,2 2,2 1
0,7
0,4 8
,4
59
,1
87
,2
11
,3
3,8
2,7
41
,2
0 0 0 0
17
,9
3,6 4,3
0,7
0 1,8
37
,7
28
78
Au
str
ia
Be
lgiu
m
Bu
lga
ria
Cro
ati
a
Cy
pru
s
Cz
ec
h R
ep
ub
lic
De
nm
ark
Es
ton
ia
Fin
lan
d
Fra
nc
e
Ge
rma
ny
Gre
ec
e
Hu
ng
ary
Ire
lan
d
Ita
ly
La
tvia
Lit
hu
an
ia
Lu
xe
mb
ou
rg
Ma
lta
Ne
the
rla
nd
s
Po
lan
d
Po
rtu
ga
l
Ro
ma
nia
Slo
va
kia
Slo
ve
nia
Sp
ain
Sw
ed
en
UK
Number of Grants Funding (€ million)
32 4
4
12
8 6
35
24
7
43
16
2
21
5
59
23 25
15
2
6 7 2 3
11
6
34 38
16
10 11
12
5
49
18
6
14
,1
12
,5
1,3
0,9 1,4 6,5 9,5
1,1 1
5,8
79
,2
10
8,5
21
5,5 6,4
61
,8
0,5
0,6
0,2
0,2
48
,4
8,2
5,4
2,5
0,8 2
33
,7
28
86
,3
Au
str
ia
Be
lgiu
m
Bu
lga
ria
Cro
ati
a
Cy
pru
s
Cz
ec
h R
ep
ub
lic
De
nm
ark
Es
ton
ia
Fin
lan
d
Fra
nc
e
Ge
rma
ny
Gre
ec
e
Hu
ng
ary
Ire
lan
d
Ita
ly
La
tvia
Lit
hu
an
ia
Lu
xe
mb
ou
rg
Ma
lta
Ne
the
rla
nd
s
Po
lan
d
Po
rtu
ga
l
Ro
ma
nia
Slo
va
kia
Slo
ve
nia
Sp
ain
Sw
ed
en
UK
Number of Grants Funding (€ million)
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 14
Section 3. Internationalisation of Higher Education and Research
Internationalisation of higher education has become a common feature around the globe. More than 42,000 UK tertiary-level students are studying abroad, amongst which more than 35 % in an EU country (table 5). UK higher education (HE) institutions welcome a large number of foreign under- and post-graduate students: in 2015/16 the total number of HE enrolments in the UK stood at 2,280,830, amongst which 6 % from the EU and 14 % from the rest of the world. With the notable exception of China which is showing a significant increase, recent statistics show a decline in foreign student enrolment numbers from almost everywhere, which is probably linked to the introduction of high tuition fees (charts 10 and 11). The trend may further amplify for EU students after Brexit. Indeed, EU students currently pay the same fees as UK students, which are usually significantly lower than for other foreign students. The UK also receive and send abroad for short stay a significant number of students thanks to the EU-funded ERASMUS+ programme (table 6).
TABLE 5: TOP-10 DESTINATIONS AND NUMBER OF TERTIARY-LEVEL STUDENTS FROM THE UK STUDYING ABROAD (2014)8
Total number of students from the United Kingdom studying abroad: 42,384
Rank Destination Number of students Percent of total
1 USA 9,689 45.7 %
2 France 2,110 10.0 %
3 Ireland 2,106 9.9 %
4 Australia 1,618 7.6 %
5 Germany 1,499 7.1 %
6 Canada 1,337 6.3 %
7 Netherlands 888 4.2 %
8 Denmark 709 3.3 %
9 United Arab Emirates 630 3.0 %
10 Austria 606 2.9 %
8 Project Atlas|United Kingdom http://www.iie.org/Services/Project-Atlas/United-Kingdom/UK-Students-Overseas#.WMKs839M5P2
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 15
CHART 10: TOP TEN EU COUNTRIES FOR HE STUDENT ENROLMENTS IN THE UK 2011/12 AND 2015/169
CHART 11: TOP TEN NON-EUROPEAN UNION COUNTRIES FOR HE STUDENT ENROLMENTS IN THE UK 2011/12 AND 2015/169
9 HESA. https://www.hesa.ac.uk/news/12-01-2017/sfr242-student-enrolments-and-qualifications
15
98
5
12
83
0
8 0
10
15
07
5
11
79
0
11
62
0
5 9
35
5 9
15
5 7
05
6 2
95
13
42
5
12
52
5
12
13
5
10
24
5
9 7
90
9 3
30
7 8
40
7 2
00
6 1
95
5 6
55
Ge
rma
ny
Fra
nc
e
Ita
ly
Ire
lan
d
Gre
ec
e
Cy
pru
s (
EU
)
Sp
ain
Ro
ma
nia
Bu
lga
ria
Po
lan
d
2011/12 2015/16
78
71
5
14
54
5
16
33
5 29
90
0
11
33
5
17
62
0
98
60
52
90
62
35
61
15
91
21
5
17
40
5
17
11
5
16
74
5
16
74
5
16
10
0
85
70
75
40
60
95
59
80
Ch
ina
Ma
lay
sia
Un
ite
d S
tate
s
Ind
ia
Ho
ng
Ko
ng
Nig
eri
a
Sa
ud
i A
rab
ia
Sin
ga
po
re
Th
ail
an
d
Ca
na
da
2011/12 2015/16
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 16
TABLE 6: ERASMUS+: HIGHER EDUCATION MOBILITY – STUDENTS BY SENDING AND RECEIVING COUNTRY UNDER CALL 201410
Countries sending students to the UK Countries receiving UK students
AT 543 AT 342
BE 740 BE 336
BG 105 BG 27
CY 55 CY 104
CZ 602 CZ 176
DE 5,269 DE 2,129
DK 792 DK 308
EE 43 EE 21
EL 298 EL 89
ES 4,381 ES 3,299
FI 637 FI 249
FR 7,663 FR 4,190
HR 51 HR 19
HU 267 HU 91
IE 372 IE 265
IS 54 IS 21
IT 2,704 IT 1,079
LI 2 LI 4
LT 189 LT 16
LU 9 LU 21
LV 32 LV 16
MK – MK –
MT 98 MT 152
NL 2,021 NL 875
NO 265 NO 163
PL 869 PL 85
PT 396 PT 150
RO 147 RO 33
SE 855 SE 420
SI 103 SI 27
SK 86 SK 12
TR 535 TR 82
Total 30,183 Total 14,801
Globalisation has also become a reality in research. Table 7 shows that almost 17% of the academic staff at UK HE institutions are EU-27 citizens. If data on foreign academic staff are not readily available for other EU countries, they can be obtained for some institutions. The ETH Zürich employs 507 professors and 7,255 scientific staff among which, respectively, 163 and 2,631 only are Swiss citizens. Similarly, the EPF Lausanne employs 40 % Swiss citizens, 39
10 Annex 1. Erasmus+ Programme Annual Report 2015. https://ec.europa.eu/programmes/erasmus-plus/about/statistics_ga
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 17
% European citizens and 21 % non-European citizens. In 2015 31% of the personnel employed by the TU Delft was foreigner. A third of the Directors and 80% of the post-docs employed by the Max-Planck Society hold a non-German passport. Switzerland and the Netherlands are probably exceptions among EU countries. Statistics would certainly prove to be much lower in Central and Eastern European countries and in many Southern European countries. Factors such as the structure and competitiveness of the host research system, salaries and social benefits and the possibility to teach in English may impact on mobility. The enlargement of the EU to Central and Eastern European countries in 2004 and 2007, for instance, has led to a massive brain drain of scientists for the benefit of Western European countries.
TABLE 7: ACADEMIC STAFF AT UK HE INSTITUTIONS BY NATIONALITY 2015/1611
Nationality
Managers, directors and senior officials
Professional occupations
Associate professional and technical occupations
Clerical and manual occupations
Total academic staff
UK 610 138,160 1235 5 139,910
Other EU 25 33,595 116 0 33,735
Non-EU 25 24,445 65 0 24,535
Not known 5 3,180 10 0 3,195
Globalization of science is also being witnessed by the steady increase in the number of international collaborations. A recent study comparing the decade before and after 2004 shows that Western Europe and North America experienced a 36 to 42% increase in the rate of cross-border collaboration measured in terms of publications12. In this paper, the authors warn that “national borders are still a formidable hindrance to cross-border activity”. On the other hand, an analysis of the citation impact shows that publications funded in the EU FPs are more often cited than Member States publications (chart 12). Brexit and the non-participation in the EU Framework Programme may thus impact on the attractiveness and performance of the UK research system.
11 HESA. https://www.hesa.ac.uk/news/19-01-2017/sfr243-staff
12 O.A. Doria Arrieta, F. Pammolli, and A. M. Petersen. Quantifying the negative impact of brain drain on the integration of European science. Sci. Adv. 2017; 3:e1602232
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 18
CHART 12: FIELD-WEIGHTED CITATION IMPACT, AVERAGE (2007-2016)4
The Field-Weighted Citation Impact divides the number of citations received by a publication by the average number of citations received by publications in the same field, of the same type, and published in the same year, thus adjusting it for field and year.
2,44
1,78
1,77
1,67
1,63
1,57
1,56
1,54
1,54
1,52
1,47
1,45
1,41
1,4
1,33
1,27
1,26
1,25
1,15
1,13
1,13
1,07
1,03
0,99
0,99
0,95
0,81
0,8
0,77
1
1,8
1,46
0,97
EU funded publications
Denmark
Netherlands
Belgium
Sweden
Estonia
Finland
Luxembourg
United Kingdom
Austria
Italy
Ireland
Germany
Cyprus
France
Greece
Spain
Portugal
Hungary
Malta
Slovenia
Czech Republic
Latvia
Lithuania
Slovakia
Poland
Bulgaria
Croatia
Romania
World
Switzerland
United States
Japan
0 0,5 1 1,5 2 2,5 3
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 19
The Royal Institution is an independent charity dedicated to connecting people with the world of science.
Academia Europaea is a European, non-governmental association acting as an Academy. The object of Academia Europaea is the advancement and propagation of excellence in scholarship in the humanities, law, the economic, social, and political sciences, mathematics, medicine, and all branches of natural and technological sciences anywhere in the world for the public benefit and for the advancement of the education of the public of all ages in the aforesaid subjects in Europe.
EuroScience is the not-for-profit European grassroots organisation of scientists and all those interested in science across disciplines, countries and the public-private divide. Its objectives are to contribute to the integration of Europe; enhance the contribution of science to the well-being and prosperity of mankind and enrich society in dealing with the political and ethical issues confronting it; influence the shaping of policies for science in Europe, both at a national and European level; and, raise awareness of the important issues linking science to society, and actively engage in addressing these issues through political processes and the promotion of dialogue at the European level between scientists and other stakeholders in science.
Brexit: The Facts behind Opportunities & Challenges for both the UK & European Science Establishments 20
EuroScience
1, Quai Lezay-Marnésia
67000 Strasbourg, France
+33 (0) 3 88 24 11 50
www.euroscience.org