Cremaschi and Van Zwanenberg
Cremaschi and Van Zwanenberg
Cremaschi and Van Zwanenberg
Almendra Cremaschi is an agronomist and doctoral student at CENIT. She works on transitions towards
more sustainable agri-food systems, especially with participatory methodologies.
Patrick van Zwanenberg is a researcher at CENIT with a background in environmental sciences. He works
on the politics of science and innovation, especially in relation to issues of sustainability.
Abstract
This article describes Bioleft, an ‘open source’, highly collaborative seed breeding initiative,
in order to encourage reflection on potential synergies with fair trade ideas and practices.
Bioleft aims to develop and redistribute collective agency over seed breeding, as a
response to the emergence of an oligopolistic seed industry. It is experimenting with novel
approaches to seed innovation that increase the diversity of crop varieties, in order to
support agricultural practices that are ignored by mainstream seed firms, particularly small-
scale family farming and more ecologically and socially sustainable agricultural practices.
More generally it is experimenting with new forms of social and productive organization
based on norms of sharing and solidarity.
Introduction
Experimentation with radically open and highly collaborative ways of producing new knowledge and material
objects can be found everywhere; from farm machinery to open scientific hardware to community based
‘maker-spaces’ (Quilley et al, 2016; Baden et al, 2015). What is distinctive about such initiatives is that they
support a way of working based on a combination of the free circulation of knowledge, unencumbered by
property rights and other restrictions, and extensive collaboration on a shared activity or on a shared
conception of a problem, especially by including people that fall outside the boundaries of organisations or of
established communities of practitioners (van Zwanenberg et al, 2017). This approach to production has been
spurred on by the availability of networked digital infrastructure, and especially by the idea, first developed by
the free/libre software movement, of ‘hacking’ existing intellectual property law to provide a legal basis for
creating protected ‘knowledge commons’ (Weber, 2004).
Many motivations underpin such initiatives, but the most prominent are aspirations to support more
democratic forms of production; to address problems that are ill-served by conventional markets and state
institutions; to widen access to socially useful technology; to demonstrate that there are viable, alternative
ways of organising production, relative to those prevalent within incumbent market structures; and, more
generally, to promote norms of solidarity and sharing (Benkler, 2006). There is much in common here with the
underlying values and aims of the fair trade movement, but rather intriguingly, there has so far been little in the
way of interaction between these two movements.
In what follows we outline one example of the surge of recent experimentation with open and collaborative
forms of production, called Bioleft, which we have been closely involved with developing in Argentina. Bioleft is
an initiative to create an ‘open-source’, networked approach to seed breeding that supports the particular
production needs of small farmers, and those working within other low-input agricultural systems at various
scales, such as agroecological farmers.
39
Journal of Fair Trade Volume 2, Issue 1, 39–44
Bioleft
In Argentina, in response to these trends, a group of plant breeders, farming organisations and researchers
have created an open-source, collaborative seed breeding initiative called Bioleft, which addresses some of the
challenges posed by an oligopolistic seed sector. Bioleft supports the diffusion and development of knowledge
and seed varieties, free from restrictive intellectual property, that are suitable for diverse agricultural practices,
particularly small-scale farming and other low-input forms of agriculture at various scales.
The initiative involves both institutional and technical tools. The former are legal clauses for exchanging
seed material, based on open-source principles, much like the Creative Commons licenses used by writers and
artists. The clauses grant a recipient of seed material the right to use that material for most or any purposes, in
particular for breeding and the development of new plant varieties. Importantly, a condition of the clause is
that any further transfers of that material, including any new seeds bred using, and therefore containing, the
original material, must contain the same clause. This is critical. It means that all progeny of material released or
transferred with a Bioleft license will become part of the same ‘protected commons’, available to all on the
condition that they agree to always share.
The second tool is a web-based platform for enabling and recording transfers of Bioleft seed material, and
for supporting a process of collaborative seed improvement between plant breeders and farmers. In Argentina,
public sector breeders often develop potentially useful new varieties, but they have no way to deliver those
40
Bioleft: open-source seeds for low-input farming systems
Almendra Cremaschi and Patrick van Zwanenberg
varieties to small producers in the many instances in which markets are too small to be viable for private seed
firms. The platform is, therefore, intended to support the diffusion of new open-source seeds. It also supports a
process whereby farmers test new seed varieties on their farms, providing information to breeders about seed
performance in different agroecological settings and, in collaboration with breeders and other farmers, to
select seeds from the best performing plants for further distributed replanting and selection. In effect, the
platform enables multiple trials without the seed breeder needing to possess an extensive field-testing
infrastructure – a resource that only very large seed companies possess.
We are currently trialling Bioleft within three different farmer–breeder networks, beginning the process of
collaborative selection of: a) novel, open-pollinated maize varieties with organic producers; b) new, salt-
tolerant fodder crops with agroecological producers and small subsistence family farmers; and c) ‘recovered’
tomato varieties with small, peri-urban farmers and with producers belonging to a biodynamic farming
organisation.
Commercial seed firms largely ignore the needs of these kinds of producers. Small family farmers usually
have no choice if they need to purchase seeds but to buy varieties that have been bred for large commercial
production, and that only work well with a package of external inputs and irrigation. Likewise, producers in
‘niche’ markets, such as agroecological farming, cannot find suitable seeds and so have to try and breed them
informally within their own networks. By linking producers who are marginal to mainstream seed innovation
processes with the high-level scientific capabilities of plant breeders, we seek to link existing dispersed
breeding capabilities, create new ones and help meet the very substantial unmet demand for appropriate
germplasm.
Groups of plant breeders and farmers in a number of other countries are also exploring how ‘open-source’
principles can be used to create a protected commons in germplasm, for example in the USA, Germany, Austria
and India (Kotschi and Horneburg, 2018; Luby et al, 2015). We are part of that emerging network, although our
initiative is a-typical in that it is also supporting collaborative breeding of such germplasm. Another difference
is that most other initiatives that have developed open-source seed initiatives envisage no restrictions at all on
what recipients can do with open-source seed material. By contrast, one of our licenses allows restrictions on
who is allowed to multiply seed (i.e. the reproduction of that seed for resale). This is because we are keen to
encourage small seed firms to participate in the initiative, and to encourage the formation of new small seed
firms. Small firms sometimes want the exclusive right to multiply seed, even where they accept that no
restrictions should be placed on the circulation of germplasm as a basis for further breeding, and that farmers
can save and reuse their own seed, and/or share it with other farmers on a non-commercial basis.
‘Recovered’ Tomatoes
An illustration of what open-source seed material looks like can be found within the ‘recovered’ tomatoes
project run by the Faculty of Agronomy at the University of Buenos Aires (FAUBA), of which Bioleft is a partner.
Tomatoes originated in the Andean region but there are now only a small handful of varieties of commercially
available tomatoes in Argentina. They are all hybrid, which means that the seeds cannot be saved and
replanted, and they are sold as germinated seedlings, which are expensive. They are also relatively tasteless
because varieties that are high-yielding and do not bruise easily in transport and storage have been
commercialised, over and above other traits.
FAUBA collected over 160 ‘forgotten’ varieties of tomato that used to be grown in Argentina in the first
two-thirds of the twentieth century but that have now disappeared from use. In most cases, the researchers
could only obtain specimens from seed banks located abroad. FAUBA multiplied the recovered varieties and
then organised public tasting sessions at its monthly agroecological farmers market, held on the faculty’s
campus in the middle of Buenos Aires. These were used to select the most popular varieties in terms of taste,
texture and smell. FAUBA is now offering packets of seeds from those selected varieties to anyone, and these
will be transferred with a contract containing a Bioleft clause.
41
Journal of Fair Trade Volume 2, Issue 1, 39–44
The contract asks growers to return double the quantity of seeds that they have been given to plant. This
will enable university agronomists to maintain populations of the tomato varieties, ensuring that they can be
distributed, for free or at marginal cost, to anyone who wants to grow them in the future. The Bioleft clause will
also mean that all those tomato varieties (and any new, improved varieties based on the recovered seed
material) become part of a ‘protected commons’, thus assuring the future, unhindered circulation of that
material for further adaptation and breeding. Some producers will also be recording information about the
performance of the new seeds on Bioleft’s digital platform, and later selecting fruit from the best performing
plants for a process of collaborative seed improvement.
With this particular initiative, there has been substantial demand for tomato seeds from a range of small-
scale producers, agricultural co-ops, farmers’ movements and public sector experimental stations, as well as
from several hundred home/urban gardeners. The reasons why people might want those seeds no doubt vary
but might include their negligible cost, the fact that they are traditional, more flavoursome varieties, and the
‘open-source’ ideology and practice underpinning their production and future reproduction. If improved varieties
are eventually developed through Bioleft that are adapted for low input agriculture (e.g. with good pest/disease
resistance and/or with yields approaching the commercial hybrid versions), we might expect increased demand.
This is key because the longer-term ambition with this kind of collaborative breeding initiative is not just to
provide a product that is well adapted for, and accessible to, small-scale farmers and for other producers who
work in low-input agricultural systems, but rather to increase the viability and profitability of those sectors, and
enable them to expand and become more competitive with mainstream agricultural practices.
42
Bioleft: open-source seeds for low-input farming systems
Almendra Cremaschi and Patrick van Zwanenberg
References
Baden, T., Chagas, A. M., Gage, G., Marzullo, T., Prieto-Godino, L. L. and Euler, T. (2015). Open Labware: 3-D printing your
own lab equipment. PLoS Biology, 13(3).
Benkler, Y. (2006). The wealth of networks: How social production transforms markets and freedom. New Haven (CT) and
London: Yale University Press.
Falcon, W. and Fowler, C. (2002). Carving up the commons: emergence of a new international regime for germplasm
development and transfer. Food Policy, 27, 197–222.
Fess, T.L., Kotcon, J.B. and Benedito, V.A. (2011). Crop breeding for low input agriculture: a sustainable response to feed a
growing world population. Sustainability, 3, 1742–1772.
Fulton, M. and Giannakas, K. (2001). Agricultural biotechnology and industry structure. AgBioForum, 4(2), 137–151.
Howard, P.H. (2015). Intellectual property and consolidation in the seed industry. Crop Science, 55, 2489–2495.
IPES-Food (2016). From uniformity to diversity: A paradigm shift from industrial agriculture to diversified agroecological
systems. International Panel of Experts on Sustainable Food Systems. http://www.ipes-food.org/_img/upload/files/
UniformityToDiversity_FULL.pdf.
Kotschi, J. and Horneburg, B. (2018). The Open Source Seed Licence: A novel approach to safeguarding access to plant
germplasm. PLoS Biology, 16(10): e3000023.
Luby, C.H., Kloppenburg, J., Michaels, T.E. and Goldman, I.L. (2015). Enhancing freedom to operate for plant breeders and
farmers through open source plant breeding. Crop Science, 55, 2581–2488.
Piesse, C. and Thirtle, C. (2010). Agricultural R&D, technology and productivity. Philosophical Transactions of the Royal
Society B, 365, 3035–3047.
Quilley, S., Hawreliak, J. and Kish, K. (2016). Finding an alternative route: Towards open, eco-cyclical, and distributed
production. Journal of Peer Production, 9.
Schenkelaars, P., de Vriend, H. and Kalaitzandonakes, N. (2011). Drivers of consolidation in the seed industry and its
consequences for innovation. Report for COGEM (Commissie Genetische Modificatie). Wageningen (NL): Schenkelaars
Biotechnology Consultancy.
Tripp, R. and Louwaars, N. (1997). Seed regulation: Choices on the road to reform. Food Policy, 22, 433–446.
Van Zwanenberg, P., Fressoli, M., Arza, V., Smith, A. and Marin, A. (2017). Open and collaborative developments, STEPS
Working Paper 98, Brighton: STEPS Centre.
Weber, S. (2004). The success of open source. Cambridge (MA): Harvard University Press.
43