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Flying pest control robots September 13th, 2020 by

My friend Steve Peck is a novelist and a professor of evolutionary ecology, whose work on mathematical models of insect populations led him to the topic of one of his short stories, about a tiny flying robot, modelled after a dragonfly. The robots would cruise the countryside, looking for insect pests, which it killed, while sparing the beneficial insects. The story seemed pretty far-fetched when it was published in 2012.

I recently told the dragonfly robot story to another friend, Keith Andrews, an entomologist with years of experience in pest control in Central America. Keith immediately seized on the robot idea. “How did it run, on photovoltaic cells? Did it collect its prey in a kind of stomach or just kill them?”

The story doesn’t say what powered the dragonflies, just that they snipped off bits of their prey to store in a mechanical stomach, so that researchers could identify the bugs later from their DNA.

Real life dragonflies do hunt and kill other insects, to eat. But once a predatory insect is full it rests. A robot wouldn’t need to pause and digest, and could be programmed to just keep up the slaughter all day.

“A robot would be great for that plague of locusts in Africa,” Keith said. “It wouldn’t have to damage an insect much to disable it. A good zap right between the eyes or even to the thorax or abdomen would put a grasshopper out of business.”

A pest control robot could be instructed to target only the pest species of interest, and not kill anything else. It would be the ultimate ecological pest control strategy.

Since Steve published his story eight years ago, the pieces for a dragonfly robot have started to come together.

For starters, flying robots are getting better.

In The Fate of Food, Amanda Little writes that inventors already have a prototype weed-killing robot called See & Spray, that uses a large set of digital photos to distinguish cotton seedlings from weeds. As a tractor pulls See & Spray across the field, the device spots the weeds and squirts them with herbicide. (No doubt future generations of the technology may invent alternatives to herbicide; the point is that the robot can recognize weeds).

Little also describes a robot, already in commercial use, that kills sea lice, parasites of farmed salmon, by zapping the pests with a laser (in the recent blog The Fate of Food).

If you’re wondering if digital software could work to identify pests on small farms, it’s already being done. Researchers at IITA (International Institute of Tropical Agriculture) in Kenya have invented an app called Nuru (Swahili for “light”) that instantly compares thousands of photos of diseased and healthy plants to distinguish between cassava brown streak disease, cassava mosaic disease and cassava green mite damage. The app is already being tested by 28,000 farmers in Kenya.

Art can inspire technology ahead of its time. Novels fueled the idea of space travel, but engineers made it happen. I can only hope that some young robotics designers will read Steve Peck’s story.

Further Reading

Little, Amanda 2019 The Fate of Food: What We’ll Eat in a Bigger, Hotter, Smarter World. New York: Harmony Books. 340 pp.

Peck, Steven L. 2012 Dragonfly Miscalculations. The Journal of Unlikely Entomology.

RTB 2019 Smarter farming: Using apps to diagnose crop health problems. In RTB 2019 Building for better science. Annual Report 2019. Lima, Peru. CGIAR Research Program on Roots, Tubers and Bananas. Available online at: www.rtb.cgiar.org/2019-annual-report

Building a better fruit fly trap August 16th, 2020 by

The Mediterranean fruit fly is a worthy enemy. This pest, also known as the medfly, is widespread over the tropics, attacking and spoiling oranges, mangos and many other fruits. Each female can lay 200 eggs in her brief lifetime—allowing rapid population growth. The medfly damages so much high value fruit, that many people would like to eradicate it entirely.

The medfly has inspired some bizarre responses, such as spraying suburban Los Angeles with Malathion (insecticide) in the 1980s. Then there is the sterile male technique, which has been used from South America to South Africa to the US citrus belt, where billion of the flies are reared in labs, and treated with enough nuclear radiation to make the males sterile. These hapless males are then dropped from airplanes to mate with wild females, who then have no offspring. These programs to eradicate fruit flies over all of Guatemala, for example) are often described as successful, cost-effective and environmentally friendly. They are also large, expensive and highly technical affairs.

Low technology has also been tried. In Bolivia, the soda pop bottle trap has been around for perhaps 20 years, although it has not been widely adopted. You take a plastic drink bottle, punch some fly-sized holes in the side, pour in half a cup of orange juice and hang the bottle from an orchard tree, about shoulder height. The flies come for the juice, fly into the hole, but usually can’t find their way out of the bottle again and drown in the juice.

It’s fine in theory, but when I saw the traps being used in the field, the farmers had quickly given up on them, allowing the orange juice to decay to a black rot. The farmers had tried a trap or two and abandoned the idea. The traps may have needed some further tweaking.

Our personal battle with the medfly began three years ago, when we couldn’t get them out of our guava tree. Entomologist Luis Crespo told us that the flies love guava so much that peach growers have to cut down their guava trees as a first step to managing the pest (The best knowledge is local and scientific). But Luis kindly gave us a pheromone trap, which attracts flies with a sexual scent lure. The flies land on the trap’s sticky surface and die.

Pheromones typically trap one particular species of fly, but we had several, and by then the soil around our guava tree was full of pupating and highly fertile fruit flies. We reluctantly pruned our guava so it wouldn’t bear fruit, but by last year we were getting fruit fly larvae in our tomatoes and even in our avocados, (not a major fruit fly host).

The war was on. We loathed the thought of fruit flies in our avocados, and this was our last chance to stamp out the fly. We uprooted all our tomatoes. Ana and her dad made dozens of traps. Even a technology made from a pop bottle can evolve. We had seen improved models displayed by students at the local fair sponsored by the agricultural college.

You can make a better trap by painting a yellow stripe around the entry holes. Fruit flies are attracted to the color yellow. Take two bottles and make a T-shaped trap. As the flies ascend from the juice to the top of the bottle, they fly into the second bottle and cannot find their way out again. During the mild winter, we may have two to four flies in each pop bottle trap, while the old traps made from a single bottle would catch one or two medflies.

It seemed like a waste to squeeze fresh juice for flies, but we learned with experience that even when the orange juice was a month old, the fruit flies still swarmed to it because they are attracted to fermenting fruits and vegetables.

Traps might also work in a commercial orchard, if you could get hundreds of pop bottles. People are starting to manufacture yellow traps and there are alternative baits (like chicha, a local, low-alcohol brew, which is already fermented and easier to get than orange juice). In spite of our improvements, one has to attack fruit flies with several weapons at once. Our traps are better for monitoring than for total fruit fly control. If not for the Covid lockdown, we would buy some low-toxic insecticide to make more lethal food traps. And we won’t know until our next avocado crop comes in if we have eradicated our fruit flies or not, but at least we have a better fly trap.

Scientific name

The Mediterranean fruit fly is Ceratitis capitata, but other fruit fly genera in Bolivia include Anastrepha and Bactrocera.

Related blog story

Guardians of the mango

Related videos

Killing fruit flies with food baits

Weaver ants against fruit flies

Collecting fallen fruit against fruit flies

Integrated approach against fruit flies

Further reading

Enkerlin, W. R., J. M. GutiĂ©rrez Ruelas, R. Pantaleon, C. Soto Litera, A. Villaseñor CortĂ©s, J. L. Zavala LĂłpez, D. Orozco DĂĄvila et al. 2017 The Moscamed Regional Programme: Review of a Success Story of Area‐Wide Sterile Insect Technique Application. Entomologia Experimentalis et Applicata 164(3):188-203.

Pay and learn July 19th, 2020 by

Vea la versión en español a continuación Extensionists often give information away for free, but selling it may get you a more tuned-in audience. This is the conclusion of researcher Gérard Zoundji and colleagues in a recent paper published in Experimental Agriculture.

Zoundji compared three groups of people in West Africa who had received DVDs with farmer learning videos. One video collection covered topics related to vegetable production and another showed how to manage the parasitic weed striga. The videos could be shown in multiple local languages, or in English or French.

When NGOs in Benin gave the DVDs to organized farmers, they tended to watch the videos, and they experimented with planting styles and other ideas shown in the videos. But some farmers who got DVDs for free did not show the videos to friends and neighbors, complaining that they needed fuel for their generators, or other support.

Audience appreciation improved when DVDs were shared by NGOs that were committed to the topic and the communities. In Mali, organizations that had taught striga management realized the importance of the weed, and arranged screenings of the videos in villages. Professional staff from the NGOs were on hand to answer people’s questions after the show. The NGOs left copies of the DVD with local people who usually self-organized to watch the videos again later, to study the content. Farmers experimented keenly with the ideas they had learned, such as planting legumes between rows of cereal crops, to control striga naturally.

But the big payoff came when farmers bought the DVDs cold, off-the-shelf in shops. Most only paid a dollar or two for the DVDs on vegetable production, but buying the information gave it value. All of these paying customers watched the videos and most of them showed the videos at home to friends and neighbors. They found the agricultural ideas useful; some bought drip irrigation equipment they had seen on screen. Others learned to manage nematodes (microscopic worms) without chemical pesticides.

Farmers who bought the DVDs also experimented with the digital technology used to show the videos. Nearly 15% bought DVD players to watch the videos. Some loaned the DVDs to their children at university, who copied the DVDs from the disk, converted them to a phone-friendly format (3gp) and then loaded the videos onto the mobile devices of friends and colleagues.

Selling information draws a self-selected audience: interested people who will take the content seriously. Expert extensionists who appreciate the videos can also demonstrate their value by organizing video shows that respectfully engage with the communities and their leaders. But when DVDs are simply given away, even though they contain cinematic-quality videos on crucial topics, farmers may watch the videos and value them, or not. People who pay for information see its importance.

Further reading

Zoundji, GĂ©rard C., Florent Okry, Simplice D. VodouhĂȘ, Jeffery W. Bentley, and Loes Witteveen 2020 Commercial Channels vs Free Distribution and Screening of Learning Videos: A Case Study from Benin and Mali. Experimental Agriculture. DOI: 10.1017/S0014479720000149.  

Related blog stories

Private screenings

Call anytime

Sorghum and millets on the rise

Watch the videos

The 11 fighting striga videos

And the 9 vegetable videos:

Managing vegetable nematodes

Making a chilli seedbed

Insect nets in seedbeds

Transplanting chillies

Drying and storing chillies

Making chilli powder

Drip irrigation for tomato

Reviving soils with mucuna

Managing soil fertility

PAGAR Y APRENDER

por Jeff Bentley, 19 de julio del 2020

Los extensionistas a menudo dan informaciĂłn gratis, pero se puede conseguir un pĂșblico mĂĄs atento si cobra. Esta es la conclusiĂłn del investigador GĂ©rard Zoundji y sus colegas en un reciente artĂ­culo publicado en Experimental Agriculture.

Zoundji comparó tres grupos de personas en África occidental que habían recibido un DVD con videos de aprendizaje para agricultores. Había una colección de videos sobre la producción de hortalizas y otra del manejo de la estriga, una maleza parasítica. Los videos podían mostrarse en varios idiomas locales, o en inglés o francés.

Cuando las ONGs de BenĂ­n entregaron los DVDs a los agricultores organizados, tendĂ­an a ver los videos y experimentar con los estilos de siembra y otras ideas que se apreciaban en los videos. Pero algunos agricultores que recibieron los DVDs gratis no mostraron los videos a amigos y vecinos, quejĂĄndose de que necesitaban combustible para sus generadores, u otro tipo de apoyo.

La apreciaciĂłn del pĂșblico mejorĂł cuando los DVD fueron compartidos por ONGs comprometidas con el tema y las comunidades. En MalĂ­, las organizaciones que habĂ­an enseñado el manejo de la estriga se dieron cuenta de la importancia de la maleza y organizaron proyecciones de los videos en las aldeas. El personal profesional de las ONGs estaba disponible para responder a las preguntas de la gente despuĂ©s de la proyecciĂłn. Las ONGs dejaron copias del DVD con los habitantes locales, que por lo general se organizaron por su cuenta para volver a ver los videos mĂĄs tarde, para estudiar el contenido. Los agricultores experimentaron intensamente con las ideas que habĂ­an aprendido, como sembrar leguminosas entre los surcos de cereales, para controlar la estriga de forma natural.

Pero la gran recompensa era cuando los agricultores compraron los DVDs por su cuenta, en las tiendas. La mayorĂ­a sĂłlo pagĂł un dĂłlar o dos por los DVDs sobre las hortalizas, pero el comprar la informaciĂłn le dio valor. Todos los clientes que pagaron vieron los videos y la mayorĂ­a los mostraron en casa a amigos y vecinos. Les servĂ­an las ideas agrĂ­colas; algunos compraron equipos de riego por goteo que habĂ­an visto en la pantalla. Otros aprendieron a manejar nematodos (gusanos microscĂłpicos) sin plaguicidas quĂ­micos.

Los agricultores que compraron los DVDs también experimentaron con la tecnología digital que se usa para mostrar los videos. Casi el 15% compró lectores de DVD para ver los videos. Algunos prestaron los DVD a sus hijos en la universidad, quienes copiaron los videos del disco, los convirtieron a un formato apto para teléfonos (3gp) y luego cargaron los videos en los dispositivos móviles de amigos y colegas.

La venta de informaciĂłn atrae a un pĂșblico auto seleccionado: personas interesadas que se tomarĂĄn el contenido en serio. Los extensionistas expertos que aprecian los videos tambiĂ©n demuestran su valor organizando programas de video de forma respetuosa con las comunidades y sus lĂ­deres. Pero cuando los DVDs se regalan asĂ­ no mĂĄs, aunque contengan videos de calidad cinematogrĂĄfica sobre temas cruciales, los agricultores pueden ver los videos y valorarlos, o no. Las personas que pagan por la informaciĂłn aprecian su importancia.

Lectura adicional

Zoundji, GĂ©rard C., Florent Okry, Simplice D. VodouhĂȘ, Jeffery W. Bentley, and Loes Witteveen 2020 Commercial Channels vs Free Distribution and Screening of Learning Videos: A Case Study from Benin and Mali. Experimental Agriculture. DOI: 10.1017/S0014479720000149.  

Historias de blog sobre temas relacionados

Private screenings

Call anytime

Sorghum and millets on the rise

Vea los videos

Los 11 videos: fighting striga

De los cuales algunos estån en español:

La micro dosis

Revivir el suelo con la mucuna

Animales, ĂĄrboles y cultivos

Y los 9 videos sobre hortalizas:

El manejo de nematodos en hortalizas                

Redes contra insectos en almĂĄcigo

Riego por goteo para el tomate

Revivir el suelo con la mucuna

Manejo de la fertilidad del suelo

Making a chilli seedbed

Transplanting chillies

Drying and storing chillies

The village hunter June 28th, 2020 by

I recently ran into our village hunter, Pol Gielen, which is always a good occasion to get to know the village history a little better, and to learn about the changing challenges of hunters and farmers alike. In our village, Erpekom, in north eastern Belgium, with only 300 odd citizens, Pol Gielen is one of the two people allowed to hunt on the village grounds. The license has been passed on from generation to generation. While hunting in Europe is a centuries-old occupation, it has not always had the same social relevance.

The first hunting laws stem from the time of William the Conqueror, the Norman King who reigned England from 1066 until his death in 1087. A decade earlier, William allied himself with Flanders, now part of Belgium, by marrying Matilda, daughter of Count Baldwin of Flanders. William was a fervent hunter who loved being in the woods, observing animals, yet he despised the common people. A peasant caught hunting could be thrown into prison or, just as likely, publicly executed. For centuries to follow, hunting became a stylized pastime of the aristocracy.

In contemporary Europe, hunting is no longer confined to the rich. While hunting licenses are to ensure that only well-trained persons are allowed to hunt, the right to hunt is also linked to the duty to care for all animals listed in the hunting laws. For various species, such as deer, wild boars, hares and pheasants, hunters and authorities have to develop plans, detailing, how many animals may or must be killed during the hunting season. Some pest species, such as pigeons, can be shot with little restriction.

In an earlier blog, Bullets and birds, I wrote how pigeons can be a real challenge for organic farmers, who do not use seed that the factories coat with chemicals to repel birds, and how local hunters can come to the rescue if need be. My recent encounter with Pol, our village hunter, showed me how changing pesticide regulations in Europe continue to influence the relationships between hunters, farmers and the environment.

In 2018, the European Commission banned three neonicotinoids (synthetic nicotinoids, toxins originally derived from tobacco). The ban covers all field crops, because these pesticides harm domesticated honey bees and wild pollinators. Neonics, as they are commonly called, are often coated onto seeds to protect them from soil pests. These pesticides are systemic, meaning they spread through the plant’s tissue. The toxin eventually reaches pollen and nectar, where it harms pollinators. According to a study by Professor Dave Goulson in the UK, most seeds and flowers marketed as “bee-friendly” at garden centres, supermarkets and DIY centres, like Aldi and Homebase, are contaminated with systemic pesticides. In fact, in his study in 2017 70% of the plants contained neonics commonly including the ones banned for use on flowering crops by the EU. Birds, bees, butterflies, bats and mammals are indiscriminately poisoned when they forage on contaminated plants.

The dramatic decline of bees and other pollinators due to the use of neonics and other pesticides is threatening the sustainability of the global food supply. Of the 100 crop species that provide 90% of global food, 71 are pollinated by bees.

To further reduce the negative impact of agriculture on the environment, more restrictions have been imposed because of mounting evidence that pesticide-coated seed are also harmful to birds, including partridges, a favourite game bird for a thousand years that has now become a rarity. Apart from subsidies for installing and maintaining hedgerows around farmers’ fields to serve as food and nesting habitat for birds, the European Commission recently banned methiocarb, a toxic insecticide used as a bird repellent, often used to coat maize seed.

With the new EU regulations limiting seed coatings, conventional dairy farmers got worried that birds would damage their maize crop, and have begun looking for alternatives. That is the reason why one of our farmer neighbours decided to call upon Pol, the village hunter. It was on his way back from that farmer that I ran into Pol when he said: “Well, the farmer asked me to come and shoot pigeons, but I told him: ‘I would be happy to help you, but where do you want me to hide, you have removed all the hedges in your fields!’”

Regulations to curb the indiscriminate and dangerous use of pesticides on seed and in fields must go hand in hand with other measures, such as promoting hedgerows that fulfil important ecological functions for birds and pollinators. Also, environmentally-friendly alternatives could be further investigated and promoted. Green, innovative technologies, such as clay coating, is likely to become increasingly important. Clay is perceived by insects and birds as soil and offers a natural protection of the seeds. The clay can even be enriched with other natural additives to repel birds and insects.

Hunting has come a long way in the past 1,000 years. No longer the pastime of kings, hunting can be part of an enlightened programme to manage bird pests, without the use of chemicals, while saving the bees.

Further reading

Goulson, Dave. 2017. Pesticides in “Bee-Friendly” flowers. www.sussex.ac.uk/lifesci/goulsonlab/blog/bee-friendly-flowers. Original research describing in detail the pesticides was published in the journal Environmental Pollution, May 2017 and can be found here: www.sciencedirect.com/science/article/pii/S0269749117305158  

Malone, Katy. 2018. Beeware! ‘Bee-friendly’ garden plants can contain bee-harming chemicals. https://www.bumblebeeconservation.org/beeware-bee-friendly-garden-plants-can-contain-bee-harming-chemicals/

Stokstad, Erik. 2018. European Union expands ban of three neonicotinoid pesticides. Science, April 27.

The European Green Deal: https://ec.europa.eu/info/strategy/priorities-2019-2024/european-green-deal_en

Related blogs

Bullets and birds

Banana birds in the bean patch

Birds: farmers’ blessing or curse

From Uniformity to Diversity

The bird cliffs

Related videos

Managing birds in climbing beans

Soya sowing density (this video talks about hunters providing services to farmers in Benin)

Achojcha: An Inca vegetable June 21st, 2020 by

Ver la versión en español a continuación

The achojcha is a member of the squash family, green and crunchy and just the right size to fit in the palm of your hand. It grows vigorously as a vine and will smother a tree, if you let it.

The achojcha has an edible skin and is hollow inside, like a balloon, with striking black seeds. It needs little care. It can grow back every year from seeds that were accidently dropped the year before, sprouting with the summer rains, and bearing fruit in the autumn. With irrigation it will grow pretty much year-round.

The book Lost Crops of the Incas estimates that the achojcha was domesticated 9000 years ago. Ancient peoples loved it enough that the pre-Colombian ChimĂș people of Peru made effigy pots in honor of the little fruit.

We have grown achojcha in our garden in Cochabamba, Bolivia for years, and it’s a popular vegetable with smallholders. The achojcha is high-yielding and sometimes we have a basketful of fruit left on the vine which we can pick during the Andean winter. Even when we abandon the fruit until the end of the season, it simply wilts, and we have yet to see any diseases or insect pests on it. There is only passing reference to a virus in achojcha. I have seen mites on achojcha in the valley of Comarapa, further down the Andes, where pesticide abuse is common.

The achojcha is still a poor person’s food in Bolivia. It is not sold by that bedrock of middle-class cuisine, the supermarket, but you can buy achojcha from street venders. The achojcha does enjoy a certain following. If you search for it on the Internet you will find several recipes. Home cooks in South America sometimes stuff the achojcha with cheese, or with rice and meat, before battering it with egg and frying it. The versatile fruit can be stewed or eaten raw in salads. 

As Paul argued in last week’s blog, farmers should be encouraged to produce for the local market. While governments and donors have a responsibility to invest in generating new knowledge in support of agroecology, a transition towards more sustainable food systems will also require re-educating consumers on the importance of preparing the fruits and vegetables that fit best into the local agroecology.

Further reading

CĂĄrdenas, Manuel 1989. Manual de Plantas EconĂłmicas de Bolivia. Cochabamba: Los Amigos del Libro.

National Research Council 1989 Lost Crops of the Incas: Little-Known Plants of the Andes with Promise for Worldwide Cultivation. National Academies Press.

.Related blog stories

Eating bricks

Make luffa, not plastic

Forgotten vegetables

Scientific and other names

The achojcha is called caigua in the northern Andes. Its scientific name is Cyclanthera pedata.

A couple of unconvincing English names are “stuffing cucumber” and “slipper gourd.”

Acknowledgement

As always, thanks to Paul Van Mele and Eric Boa for excellent comments on a previous draft. Thanks also to Eric for his stunning picture of the achojcha seeds.

LA ACHOJCHA: HORTALIZA INCA

Por Jeff Bentley, 21 de junio del 2020

La achojcha es un miembro de la familia de las calabazas, verde y crujiente y del tamaño justo para caber en la palma de tu mano. Crece vigorosamente como una parra y ahoga a un årbol, si se lo permites.

La achojcha tiene una cåscara comestible y es hueca por dentro, como un globo, con llamativas semillas negras. Necesita poco cuidado. Puede volver a nacer todos los años a partir de semillas que se cayeron accidentalmente el año anterior, brotando con las lluvias de verano, y dando frutos en el otoño. Con la irrigación crecerå año redondo.

El libro Lost Crops of the Incas estima que la achojcha fue domesticada hace 9000 años. A los antiguos les gustaba tanto que el pueblo chimĂș precolombino de PerĂș hizo ollas efigies en honor a la pequeña fruta.

Hemos cultivado achojcha en nuestro huerto en Cochabamba, Bolivia, durante años, y es una hortaliza cotizada entre los campesinos. La achojcha es rendidora y a veces nos queda una canasta llena de fruta en la parra hasta despuĂ©s de cosecharla por meses. Incluso cuando abandonamos la fruta hasta el final de la temporada, simplemente se marchita, y todavĂ­a no hemos visto ninguna enfermedad o plaga insectil en ella. SĂłlo hay una referencia pasajera a un virus en la achojcha. He visto ĂĄcaros en la achojcha en el valle de Comarapa, mĂĄs abajo en los Andes, donde el abuso de pesticidas es comĂșn.

La achojcha sigue siendo el alimento de los pobres en Bolivia. No es vendido por ese cimiento de la cocina burguesa, el supermercado, pero puedes comprar achojcha de los puestos en la calle. La achojcha tiene su pĂșblico. Si lo buscas en Internet encontrarĂĄs varias recetas. Los cocineros caseros de SudamĂ©rica a veces rellenan la achojcha con queso, o con arroz y carne, antes de rebozarlo con huevo y freĂ­rlo. Esta fruta tan versĂĄtil puede entrar a la sopa, o cruda en ensaladas. 

Como Paul argumentó en el blog de la semana pasada, se debe alentar a los agricultores a producir para el mercado local. Si bien los gobiernos y los donantes tienen la responsabilidad de invertir en generar nuevos conocimientos en apoyo de la agroecología, la transición hacia un agro mås sostenible también requiere reeducar a los consumidores sobre la importancia de preparar las frutas y verduras que se adapten a la agroecología local.

Para leer mĂĄs

CĂĄrdenas, Manuel 1989. Manual de Plantas EconĂłmicas de Bolivia. Cochabamba: Los Amigos del Libro.

National Research Council 1989 Lost Crops of the Incas: Little-Known Plants of the Andes with Promise for Worldwide Cultivation. National Academies Press.

Otros relatos de este blog

Eating bricks

Make luffa, not plastic

Forgotten vegetables

Agradecimiento

SinĂłnimo y nombres cientĂ­ficos

La achojcha se llama caigua en el norte de los Andes. Su nombre cientĂ­fico es Cyclanthera pedata.

Como siempre, gracias a Paul Van Mele y Eric Boa por sus excelentes comentarios sobre un borrador anterior. Gracias también a Eric por su impresionante imagen de las semillas de achojcha.

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