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MALAYSIA: Turn Empty Spaces Into Urban Farms To Grow Food

WITH the Covid-19 pandemic highlighting the importance of food self-sufficiency, it is probably time for Malaysians to turn empty urban spaces into farms. Urban farming is the practice of cultivating, processing and distributing food in or around urban areas

17 Apr 2021

WITH the Covid-19 pandemic highlighting the importance of food self-sufficiency, it is probably time for Malaysians to turn empty urban spaces into farms. Urban farming is the practice of cultivating, processing, and distributing food in or around urban areas.

Although our country is rich in natural resources, we are still highly dependent on high-value imported foods. Currently, our self-sufficiency level (SSL) for fruits, vegetables, and meat products is 78.4%, 44.6%, and 22.9% respectively.

With a lower occupancy rate in both retail and office space after businesses folded due to the pandemic, property owners could perhaps be induced into redeveloping their buildings for urban or vertical farming. This is being done in Singapore with tremendous success.

According to the National Property Information Centre (Napic), the occupancy rate for shopping malls in Malaysia has dropped steadily for five consecutive years, declining from 79.2% in 2019 to 77.5% in 2020, the lowest level since 2003.

And, according to the Valuation and Property Services Department (JPPH), the occupancy rate for privately-owned office buildings is lower now compared to the pre-pandemic era.

Aquaponics, a pesticide-free farming method that combines aquaculture (raising fish) and hydroponics (growing plants without soil), would be one of the ways forward in food production. In aquaponics, the nutrient rich aquaculture water is fed to the hydroponic-grown plant.

This method of farming could be the economic livelihood for many, particularly the underprivileged and disabled communities as well as fresh graduates who are still struggling to secure a decent job.

Sunway FutureX Farm, Kebun-Kebun Bangsar (KKB) and Urban Hijau are examples of good urban farming initiatives in the Kuala Lumpur city centre.

Perhaps Malaysians could adopt Singapore’s approach by setting up aquaponics farming systems on roofs of car parks and opening urban farms in unused buildings.

The vertical rooftop system is another way of increasing our food production capacity. This system requires only a quarter of the size of a traditional farm to produce the same quantity of vegetables. At the same time, it also reduces the need to clear land for agricultural use.

The government should provide incentives for farmers and the relevant stakeholders who are interested in venturing into urban farming. This would enhance the supply and affordability of a wide range of minimally processed plant-based foods, as suggested under the latest Malaysia Economic Monitor “Sowing the Seeds” report by the World Bank.

With the current administration’s laudable commitment to tackling food security issues, this would provide the opportunity for Malaysia to review the current national food security policy by addressing productivity, optimization of resources, sustainable consumption, climate change, and water and land scarcity. By putting greater emphasis on urban farming, the government could encourage farmers to plant more nutritious and higher-value crops.

Given that the involvement of youths in the agriculture sector is only 240,000 or just 15% of the total number of farmers in Malaysia, as noted by Deputy Minister of Agriculture and Food Industries I Datuk Seri Ahmad Hamzah, the Entrepreneur Development and Cooperatives Ministry and Youth and Sports Ministry would need to come up with training programmes and develop grant initiatives to attract the younger generation to farming, in this case urban farming.

These ministries can also work with the Agriculture Department, Malaysian Agricultural Research and Development Institute (Mardi), and Federal Agricultural Marketing Authority (Fama) to develop more comprehensive urban farming initiatives.

The upcoming 12th Malaysia Plan (12MP) would also provide opportunities for the government to turn empty spaces into urban farming. In a nutshell, every Malaysian can do their part to help the country become more food resilient by converting empty spaces into farms.

Lead photo: Vertical farming systems can maximize use of space in an urban context.

AMANDA YEO

EMIR Research

Kuala Lumpur

TAGS / KEYWORDS: Letters & Opinion,

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Is AppHarvest the Future of Farming?

In this video from Motley Fool Live, recorded on Jan. 28, Industry Focus host Nick Sciple and Motley Fool contributor Lou Whiteman discuss AppHarvest, one such SPAC that is looking to disrupt the agriculture industry. Here are the details on what AppHarvest wants to do, and a look at whether the company represents the future of farming.

Special purpose acquisition companies, or SPACs, are red-hot right now, with investors clamoring to get into promising young companies.

In this video from Motley Fool Liverecorded on Jan. 28, Industry Focus host Nick Sciple and Motley Fool contributor Lou Whiteman discuss AppHarvest, one such SPAC that is looking to disrupt the agriculture industry. Here are the details on what AppHarvest wants to do, and a look at whether the company represents the future of farming.

Nick Sciple: One last company I wanted to talk about, Lou, and this is one I think it's -- you pay attention to, but not one I'm super excited to run in and buy. It was a company called AppHarvest. It's coming public via a [SPAC] this year. This vertical farming space. We talked about Gladstone Land buying traditional farmland. AppHarvest is taking a very different approach, trying to lean into some of the ESG-type movements.

Lou Whiteman: Yeah. Let's look at this. It probably wouldn't surprise you that the U.S. is the biggest global farm exporter as we said, but it might surprise you that the Netherlands, the tiny little country, is No. 2. The way they do that is tech: Greenhouse farm structure. AppHarvest has taken that model and brought it to the U.S. They have, I believe, three farms in Appalachia. The pitches can produce 30x the yields using 90% less water. Right now, it's mostly tomatoes and it is early-stage. I don't own this stock either. I love this idea. There's some reasons that I'm not buying in right now that we can get into. But this is fascinating to me. We talked about making the world a better place. This is the company that we need to be successful to make the world a better place. The warning on it is that it is a SPAC. So it's not public yet. Right now, I believe N-O-V-S. That deal should close soon. [Editor's note: The deal has since closed.] I'm not the only one excited about it. I tend not to like to buy IPOs and new companies anyway. I think the caution around buying into the excitement applies here. There is a Martha Stewart video on their website talking up the company, which I love Martha Stewart, but that's a hype level that makes me want to just watch and see what they produce. This is just three little farms in Appalachia right now and a great idea. This was all over my watchlist. I would imagine I would love to hold it at some point, but just be careful because this is, as we saw SPACs last year in other areas, people are very excited about this.

Sciple: Yeah. I think, like we've said, for a lot of these companies, the prospects are great. I think when you look at the reduced water usage, better, environmentally friendly, all those sorts of things. I like that they are in Appalachia. As someone who is from the South, I like it when more rural areas get some people actually investing money there. But again, there's a lot of execution between now and really getting to a place where this is the future of farming and they're going to reach scale and all those sorts of things. But this is a company I'm definitely going to have my radar on and pay attention to as they continue to report earnings. Because you can tell yourself a story about how this type of vertical farming, indoor farming disrupts this traditional model, can be more efficient, cleaner, etc. Something to continue paying attention to as we have more information, because this company, like you said, Lou, isn't all the way public yet. We still got to have this SPAC deal finalized and then we get all our fun SEC filings and quarterly calls and all those sorts of things. Once we have that, I will be very much looking forward to seeing what the company has to say.

Whiteman: Right. Just to finish up along too, the interesting thing here is that it is a proven concept because it has worked elsewhere. The downside of that is that it needed to work there. Netherlands just doesn't have -- and this is an expensive proposition to get started, to get going. There's potential there, but in a country blessed with almost seemingly unlimited farmland for now, for long term it makes sense. But in the short term, it could be a hard thing to really get up and running. I think you're right, just one to watch.

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(Assistant) Professor Crop Modelling In Greenhouses And Vertical Farms (Tenure Track)

Are you keen to contribute to the sustainable production of healthy fresh vegetables? We have a vacancy for an Assistant professor of Crop modelling in Greenhouses and vertical farms. Do you like to supervise students? Do you want to combine modelling and data analytics with plant experimentations? Then this position could be a perfect fit for you!

The chair group Horticulture and Product Physiology of Wageningen University & Research (WUR) is keen to hire an Assistant Professor (0.7-1.0 ft). As an Assistant Professor, you will take a leading role in developing research and education and the opportunity to establish your own research and education in crop modeling in greenhouses and vertical farms.

This position also involves experimental physiological work at the plant organ, whole plant or whole crop level, which is necessary to build, calibrate and validate models.

In this challenging career trajectory:

  • You will perform research on modeling, combined with experimentation, of growth, development, and quality of horticultural crops and products (vegetables, fruits, cut flowers, and/or pot plants).

  • You acquire, lead and implement together with the chair holder and other staff members innovative and creative (inter-)national research projects for our group. Once acquired you also implement and lead these projects.

  • You supervise Ph.D., MSc, and BSc students, and you will develop and teach courses (lectures, practicals) on the modeling of key plant processes in greenhouses and vertical farms.

  • Your work will focus on the development of models, which are a combination of multiscale Spatio-temporal data-driven, as well as knowledge-based models. Model applications may include predictions of yield, plant development and growth, quality, post-harvest behavior, resource use and running costs for crops grown in greenhouses and vertical farms

  • You collaborate with colleagues and establish a personal research portfolio that is embedded in the Horticulture and Product Physiology group

  • You undertake research on modeling and data analytics, combined with experimentation, that leads to high-quality research output.

  • You will perform research on modeling, combined with experimentation, of growth, development, and quality of horticultural crops and products (vegetables, fruits, cut flowers, and/or pot plants).

Tenure Track is a career path for scientists who pursue to excel in education and research. We seek to attract scientific talent and to stimulate and support their development.

Requirements:

  • You hold a Ph.D. degree in plant science, mathematical science, biological science, data science, or similar.

  • You have experience in modeling and data analytics, as well as a keen interest in combining these activities with experimentation with plants.

  • You have published research in high-quality journals and are willing to develop your skills in teaching and grant proposal acquisition.

  • You are strong in stakeholder management because you need to communicate the importance and significance of your research.

  • This position requires excellent English language proficiency (a minimum of CEFR C2 level). For more information about this proficiency level, please visit our special language page.

The chair group Horticulture & Product Physiology
The chair group Horticulture and Product Physiology conduct high impact research and educate students providing the scientific basis required to answer questions that are of utmost importance for sustainable crop production and product quality in horticulture.
The research focus is on how physiological processes in crops, plants, and plant organs interact with the abiotic environment and how this affects crop production and product quality. Questions arising from horticultural practice are translated into fundamental research topics, aiming to explain mechanisms. The research and education contribute to sustainably feeding the World with healthy high-quality products.
The chair group is an international team consisting of 15 permanent staff members, about 25 Ph.D. candidates and postdocs, and a number of guest researchers. Each year about 40 MSc students conduct their thesis study (6-month research) at our group. We organize and participate in a variety of courses for BSc and MSc students to transfer knowledge on horticulture (pre-and post-harvest), environmental physiology, and product quality.
More info about the chair group can be found at
www.hpp.wur.nl or see the video below:

Salary Benefits:

Wageningen University & Research offers excellent terms of employment. A few highlights from our Collective Labour Agreement:

  • sabbatical leave, study leave, and paid parental leave;

  • working hours that can be discussed and arranged so that they allow for the best possible work-life balance;

  • the option to accrue additional flexible hours by working more, up to 40 hours per week;

  • there is a strong focus on vitality and you can make use of the sports facilities available on campus for a small fee;

  • a fixed December bonus of 8.3%;

  • excellent ABP pension regulations.

In addition to these first-rate employee benefits, you will be offered a fixed-term, 7-year contract which, upon positive evaluation based on criteria elaborated in the University's Tenure Track policy, can lead to a permanent employment contract as a professor. Depending on your experience, we offer a competitive salary of between € 3.746,- and € 5.127,- (assistant professor position) for a full-time working week of 38 hours in accordance with the Collective Labour Agreements for Dutch Universities (CAO-NU) (scale 11). The position can be part-time or full-time (0.7-1.0 ft).
Wageningen University & Research encourages internal advancement opportunities and mobility with an internal recruitment policy. There are plenty of options for personal initiative in a learning environment, and we provide excellent training opportunities. We are offering a unique position in an international environment with a pleasant and open working atmosphere.
You are going to work at the greenest and most innovative campus in Holland, and at a university that has been chosen as the "
Best University" in the Netherlands for the 16th consecutive time.

Coming from abroad
Wageningen University & Research is the university and research center for life sciences. The themes we deal with are relevant to everyone around the world and Wageningen, therefore, has a large international community and a lot to offer to international employees. Applicants from abroad moving to the Netherlands may qualify for special
tax relief, known as the 30% ruling. Our team of advisors on Dutch immigration procedures will help you with the visa application procedures for yourself and, if applicable, for your family.
Feeling welcome also has everything to do with being well informed. Wageningen University & Research's
International Community page contains practical information about what we can do to support international employees and students coming to Wageningen. Furthermore, we can assist you with any additional advice and information about helping your partner to find a job, housing, schooling, and other issues.

Work Hours: 38 hours per week

Address: Droevendaalsesteeg

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Urban Home For High Tech Horticulture In Australia

A feasibility study will be conducted to identify the opportunities and challenges for high technology horticulture in urban Australia

RMCG has kicked off 2021 with a new project for the Australian horticulture industry, which aims to assess the potential of emerging production technology and its application in the urban landscape.
Vertical farms, aquaponics, floating farms – these are just some of the many possibilities of high technology horticulture in urban areas across the globe. But are they feasible for Australian growers?

RMCG is excited to lead a consortium in partnership with the University of Technology Sydney (UTS) and global urban agriculture consultancy ugritecture to answer that very question. The six-month project, funded by Hort Innovation, will assess the potential of emerging production technology and its application in the Australian urban landscape, which will also cover regional areas and hubs.

High technology horticulture and emerging production technology can benefit Australian growers and industry by developing food production and delivery systems that have the potential to optimize yield, quality and supply. Examples of this technology include vertical farm systems, hydroponics, aquaponics, nearly fully automated production as well as rooftop, underground and floating farms.

Project approach
A feasibility study will be conducted to identify the opportunities and challenges for high technology horticulture in urban Australia. It will identify a range of high technology systems and assess their applicability to urban Australia by considering: regulation and planning, farm input and waste, supply chain logistics, and social, environmental, and economic aspects.

The project will include a high-level literature review and modeling of the social and environmental impacts. The economics of high technology systems for urban horticulture will also be analyzed.

The study is being guided by an industry-led reference group including growers and emerging commercial leaders engaged in urban high technology horticulture in Brisbane and Sydney, members of local city councils, and subject-matter experts in protected cropping.

The outcomes of the study will identify future priorities for research, development and extension activities and investment into Australian high technology horticulture in urban areas.

For more information:
RMCG
www.rmcg.com.au 

28 Jan 2021

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The Basis, A Homogeneous Climate, Is Already There" Artechno Doing New Cultivation Tests In VF Chamber

Previously, the Artechno industrial hall was mainly the place to build complete water management systems for the greenhouse or harvesting lines and turnkey systems for vertical farms and deep-float systems

"Together with another colleague, I am adding green thumbs to the team that is full of technicians here", Rick van Schie laughs. As the son of a tomato grower and next year's fourth-year horticulture student, he  started cultivation research in the industrial hall of Artechno in De Lier. In a AVF+ Junior climate chamber Rick researches irrigation strategies for four different substrates and the effect that far-red light has on the stretching in lettuce.

Previously, the Artechno industrial hall was mainly the place to build complete water management systems for the greenhouse or harvesting lines and turnkey systems for vertical farms and deep-float systems. “The cultivation space with deep-float facility provided insight into growth and also important key figures for the business case. By testing and growing ourselves, we can now also better serve our customers in the vertical farm industry and provide them with better data and growth recipes.”

Rick started growing in the climate chamber in mid-June. "It is often wise for a grower to first do tests in a small chamber and to collect as much information as possible about lighting, climate and irrigation before scaling up to a larger system. That is why we also offer our chambers for rent to growers."

Cameras and LED
The AVF + Junior with which Rick is currently doing tests is equipped with Philips GEN3 LED luminaires, whereby both the spectrum and the light intensity are adjustable. The chamber is also equipped with special hyper-spectral cameras (and sensors), making it possible to monitor the crop and climate without having to enter the chamber.

Homogeneous climate
Anyone who would enter the chamber will notice, according to Rick, that the climate is remarkably homogeneous. "Or actually you do not notice that much and that is positive. To demonstrate that there really is air circulation, I have hung up an A4 sheet, but you do not notice it."

Art, general director: "The aim was to realize a delta T difference of less than 1 degree Celsius difference in a 10-layer climate chamber of about 8 meters high, and we succeeded."

All this is possible thanks to the air treatment units that were developed by Artechno itself. "You want to exclude as many variables as possible in your research, so a homogeneous climate is essential."

Study 1: irrigation strategies
The first study examines the effect of different irrigation strategies on four different substrates (stone wool, foam plug, glue plug, and soil mix with 10% wood fiber). This should become the basis for other studies with various types of lettuce, Rick says.

Study 2: far-red light
The second research is conducted into the addition of far-red light. Lighting is applied with 180 micromoles for a total of 18 hours and in the last hour, far-red light is added with 10%. There is also a control group (DRB LB) without the addition of far-red light.

"The purpose of the addition of far-red light is to achieve more stretching in the leaves so that the plant makes better use of the growing surface after transplanting. This could possibly also influence the bringing forward of the growth curve."

Germination
Rick is very satisfied with the results of the sowing tests in comparison to the tests carried out in the previous two years. "96-98% germination on the various substrates is a good result, but maybe this might be surpassed by an upcoming germination chamber."

Low input, high output
The results of the tests are assessed, among other things, by measurements of fresh and dry weight, growth percentage, quality, and kilo/m2. "From these results, certain trend lines are emerging, from which the crop growth rate can be calculated. This trend line also gives us insight into the smarter use of the LED light (grams of fresh weight per mole). The ultimate aim is to be consistent with the lowest possible input to achieve the highest output (kilo/m2/year)."

Rick knows that kg/m2/year is an important factor for customers to determine the profitability of their business case. "The results of our tests are used for this, among other things. The results and experiences with certain products we always provide feedback to our suppliers and customers, so that they remain up-to-date."

Soft fruit
Meanwhile, Rick and Artechno see that, in addition to demand for research for herbs and leafy crops, there is also an increasing demand for soft fruit. "This includes, for example, growing strawberries indoors and testing with the rooting phase in, for example, the propagation of blueberry plants.

We also want to be proactive in this, so we will certainly carry out tests ourselves. For ourselves, but also for growers or suppliers to whom we rent the chambers. In addition, I can mentor them and, in consultation, help to draw up a good research plan, always with a lot of literature as a foundation, so that you are not wasting time doing research that has already been done."

For more information: 
Artechno
www.artechno.nl
info@artechno.nl

Rick van Schie
rick@artechno.nl

Publication date: Fri 24 Jul 2020
© HortiDaily.com

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