Categories
Events/Announcements Greenhouse News

MedCan 2020

What is the Standard Operating Procedure for growing the plants?

 

Last week I attended Med Can 2020, at the Aotea Centre in Auckland, New Zealand.  I was fortunate to receive an invitation from Apex Greenhouse Ltd to attend.  I was curious to understand more about post-harvest production and procedures, but this was purely from an interest point of view.   Post-harvest manufacturing (after drying) is not my area of expertise and is for other specialists i.e. pharmaceutical companies etc.  However, as a greenhouse advisor I am very interested in all aspects of growing MC plants.   The hardest phase for any start-up company is the pre-production research and development then selecting mother stock or stocks.  Once this is established it then becomes a race to build growing facilities and then multiply plants to fill up growing areas.  As a long-term greenhouse grower and advisor, I think this is a straight forward process but unlike a typical greenhouse vegetable setup there are multiple Standard Operating Procedure (SOP’s) for the growing of Cannabis cultivars.

When initial R&D is completed growers will select their own unique mother stock (as there is currently no F1 Hybrid in the world) each and every company’s mother stock will most probably contain different characteristics.  The different characteristics may alter growth habits.  The growth patterns may vary from only slightly different to quite a lot different.  For example, determining from day one the optimal plant spacing will be an educated guess.  This is why constant trials will be required to determine best practice for each individual company.

For other growing requirements, such as irrigation, temperature, humidity and lighting needs, there is excellent knowledge in regards to the set points and targets required.   However, I think it will take some time to fine-tune all growing requirements for every individual mother stock.  If companies can achieve ultimate growing strategies, similar to what greenhouse vegetable growers are focused on, this will improve chances of growing success.   For the greenhouse vegetable market, new, improved varieties are constantly being introduced.  More often than not new varieties require a total rethink of growing set points.   If the same happens for Cannabis then growers will constantly require the ability to be flexible and adjust growing strategies.

 

Greenhouse or Factory:

As I interacted with several of the major companies, setting up growing facilities in NZ, the most common denominator is that not one had a similar SOP for their individual growing facilities.  In fact, they are in some cases totally opposite in their opinions. 

There are good arguments for both.  For instance, in a factory setup if the installation is done properly companies should be able to achieve the exact same climate every single crop to then extract the exact same consistency of product each and every harvest.  For greenhouse production the lighting system will need to be developed so the artificial light levels match the peak light levels you will achieve in summer as a minimum.  Cannabis tolerates intense light levels so this is achievable without causing plants to produce differently in summer or winter.

Twelve hours of light and twelve hours of darkness are crucial when growing cannabis.   A factory offers an advantage that you can turn the lights on and off at exactly the same time and you never have the fear of any light disrupting the growth cycle.  For a glasshouse if the blackout screen even has the smallest gap then the area that has light penetrating those plants will be affected. 

Controlling temperature and humidity when closing screens in a glasshouse will require the correct environmental control for example, heating ventilation air conditioning systems (HVAC).  This will be the same for factory setups but it possibly gives factory an advantage as long as the insulation is up to scratch in the facility.   Cannabis plants are susceptible to fungal infection that can render the product useless and wipe out crops fast.  There are currently very limited chemicals registered for MC, if any. 

 

My Opinion – Both work

There are pluses and minuses for the different growing facilities, and in my opinion either system works and can work well.   Personally, I lean towards a greenhouse rather than a factory.  Below are several reasons why I would consider a greenhouse over a factory growing operation. 

  1. Energy costs
  2. Labour and production efficiency
  3. Venting ability (insurance)
  4. Internal setup

What happens if MC becomes a commodity?

This industry is in its infancy and commercial production is not quite a reality in NZ.  However, what happens if or when MC becomes a commodity.  Like the current vegetable greenhouse industry, for companies to return a profit they need to control their largest costs to remain competitive.  From a greenhouse growers’ point of view, energy and labour are two of the biggest expenses and would have a bearing on the decision.

 

MedCan 2020

MedCan was great for networking and to finally put a face to a name- I met many contacts I have had phone conversations or e-mails correspondence with.   Conferences are important to make connections with growers, suppliers and industry manufacturers.  The industry has a long way to go and I look forward to future events.

 

Below Photo Gallery of MedCan 2020

Nathan Hewson from Advanced Hort was working alongside Apex Greenhouses at their combined stand. https://www.advancedhort.co.nz/

Great to meet and chat with co-founder and CEO of Cannasouth – Mark Lucas https://www.cannasouth.co.nz/

Special thanks to Apex for the invitation to attend.  https://apexgreenhouses.com.au/

 

MedCan 2020 attracted hundreds of delegates.

 

I appreciate your comments.  Please feel free to comment on the grower2grower Facebook page:

https://www.facebook.com/StefanGrower2grower/

Article Written and compiled by Stefan Vogrincic, Consultant, Grower2Grower

Article Edited by Marie Vogrincic, Editor, Grower2Grower

 

 

 

 

 

 

Categories
Irrigation/Substrates

Uneven delivery of irrigation water

Keep it clean

 

Crops will grow in a large range of water content (WC) and electrical conductivity (EC), but it is better to achieve perfect delivery and output for every slab or bag to maximise plant health and production.   If I was able to trust my irrigation system 100% to deliver the exact same volume to each plant every time, then the substrate required per plant could be reduced.  The extra volume of substrate is predominantly a necessary water buffer to mitigate uneven watering systems.

Pressure compensating drippers (PCD) have always been my preferred delivery method and they work extremely well.  Nutrient Film Technique (NFT) and Deep Flow Technique (DFT) systems have no substrate costs but have risks associated with potential breakdowns. However, they are popular with some smaller to medium sized growers. Most NZ greenhouse growers grow in substrates and use PCD to supply refreshment/irrigation.   The way I delivered irrigation has barely changed since I started growing 25 years ago.  The aspects that have changed are the compositions of the substrate and ever improving technology assisting WC and EC controls.  The choice of substrate is important and no one substrate provider has convinced every grower their product is the best, in other words there is good competition and very good substrates available in the market that suit the needs of many.

 

EC in Substrates:

An ongoing basic requirement for substrates is controlling bound EC around the rootzone.  It requires runoff to control EC from becoming too high.  Increasingly uneven irrigation delivery per plant will require more irrigation to reduce high EC bound in rootzone where not enough flushing has occurred.  The opposite effect is extra irrigation will drop the EC too low in bags not affected by uneven delivery within the same irrigation zone.  It is a loose-loose scenario.

 

Delivery:

As mentioned above the delivery of irrigation via PCD is the most popular way to irrigate and has not altered much in 20 plus years.  You may be aware of the lids/caps you place on top of the propagation cube; this is to increase the surface area the irrigation water is applied.  The concept is to create a better root cone and reduce evapotranspiration out of the block.  It certainly sounds and looks impressive but these caps may be expensive and be time consuming to both place on the plant block and remove and clean each season.  However, at least they provide another option to the irrigation spikes.  Delivery systems is an area I believe could be explored further. However, reinventing the wheel is not what I am suggesting but irrigation systems are an area that still have room for improvement.

 

Standard Deviation:

If I notice a crop where plants appear uneven and I think it may be the irrigation I would suggest a quick test to measure the difference between several PCD.  If there is a large range between PCDs check the water pressure to make sure the PCD are actually getting the correct pressure to open the manifolds.  If that is good then remove and open a few PCD’s to check for gunk. 

If the irrigation system is not as accurate as they should be consider upgrading and even replacing parts of the system, especially the PCD and the irrigation pipes.  If you wish to attempt to clean and flush the lines do this with caution as you may loosen thick gunk which can cause additional short- or long-term issues.  What I suggest is if you do upgrade your system keep it clean from the beginning with products such as Huwasan.  A clean irrigation system is crucial for growing crops evenly and effectively. 

 

Sanitising new PCD irrigation systems from the start will improve long term accurate per plant delivery.

 

I appreciate your comments.  Please feel free to comment on the grower2grower Facebook page:

https://www.facebook.com/StefanGrower2grower/

Article Written and compiled by Stefan Vogrincic, Consultant, Grower2Grower

Article Edited by Marie Vogrincic, Editor, Grower2Grower

Categories
Greenhouse News

Greenhouse Harvesting Robots

Covid-19 and minimum wage increases accelerates the need for alternative solutions

 

The cost of labour is rising and with imminent wage increases there is a real possibility we are cutting our noses off to spite our faces’ (collectively).   Is it possible that greenhouse vegetables become so expensive to grow, in comparison to other vegetable lines grown outdoors, that it could affect purchasing habits?

Compared to greenhouse vegetable growing certain outdoor product lines will have a distinct advantage, in terms of the mechanical nature required for growing and harvesting.   Preparing a greenhouse for replanting and ongoing crop maintenance requires large amounts of manual labour compared to planting and harvesting a paddock of potatoes where a tractor can do the bulk of the work.  So will potato chips become more affordable to purchase than greenhouse vegetables?  If labour units currently required don’t change/reduce for greenhouse production then it may become harder to compete with cultivars grown outside where automation is easier to apply. 

The greenhouse industry is growing steadily and will keep providing healthy food options for those of us that are able to afford it.  However, unless we address the issue around efficiencies then not everyone may be able to regularly afford to eat fresh, healthy greenhouse vegetables.  If people want healthy eating options then growers must make money.  One way to achieve this is to increase efficiencies and reduce labour costs.  Robots will be required to replace human labour, just like they did in the car industry.  Throughout time progress has been made via automation it will be no different in our industry – but it is not an overnight fix.  

 

Strawberry picking robots:

Strawberry prices are currently good, growers are making solid returns (if growers currently have someone able and willing to pick fruit).  Harvesting strawberries is a costly exercise and a physically hard job, especially if it involves picking berries grown in the ground.  Any job where you have to bend over slows the rate of harvest and is hard on the old back.   In the future, due to its seasonal nature, then strawberry picking robots may become a necessity to safeguard the industry from labour shortages and to provide affordable produce for all.  I am quietly confident that for both outdoor and indoor production there will be options available in the future. 

 

Below are easy to find examples on youtube with demonstrations of what may happen in the not to distant future.

 

 

 

 

I appreciate your comments.  Please feel free to comment on the grower2grower Facebook page:

https://www.facebook.com/StefanGrower2grower/

Article Written and compiled by Stefan Vogrincic, Consultant, Grower2Grower

Article Edited by Marie Vogrincic, Editor, Grower2Grower

 

Categories
Greenhouse News

Water Storage and its advantages

Protection in case the bore runs dry

 

Many growers will be drawing allocated water from bores for irrigation.  Likewise, many growers store rain water collected from the roof in storage ponds. If you have the room storing rain water, collected from the greenhouse, offers a layer of water security.  The greenhouse industry has a major advantage that we have the ability to collect and store (room permitted) nearly every litre of water that falls on the greenhouse roof’s.

Analysing local monthly rainfall and calculating monthly irrigation requirements will help determine the size of the storage required.   You may not have the land, or even the need to collect every drop of rain water, but it certainly would offer a free insurance policy and buy valuable time if a bore was to run dry or you were waiting until the next time it rained. 

The cost to install or replace a bore is a capital cost as is building water storage.  The capital expense, and the benefit of having both options at a property, increases water security not to mention increasing the value of the business.  

Water storage ponds are nothing new, many companies already have large lined ponds.  For smaller growers the capital cost may be off putting.  However, it is worth understanding the costs involved with different options available. 

The options you have for water storage are:

  1. Fixed Tanks
  2. Lined Ponds/Canals
  3. Bladder’s (Flexi tanks)

Note:

I am often asked about taking water from creeks,   to which the reply is always the same.  Be careful.  Unless you know what is coming downstream you have no idea what is in that water.

 

Last week I’m sure many in the greenhouse industry would’ve seen this segment on TV3;

https://www.newshub.co.nz/home/rural/2020/10/severe-water-shortage-threatens-auckland-tomato-growers.html

When we were growing, our only source of water for irrigation was from a bore. This story highlights why it is time to consider collecting and storing as much rainwater as possible to mitigate climate change and water scarcity issues.  No one owns rain, if it falls on your property it is yours and as long as you can legally build one of the water storage options then it could safe guard your business for years to come.  

 

Images below of possible storage options:

Ponds

Lined steel tanks

 

Flexi Tanks

Plastic Tanks

 

I appreciate your comments.  Please feel free to comment on the grower2grower Facebook page:

https://www.facebook.com/StefanGrower2grower/

Article Written and compiled by Stefan Vogrincic, Consultant, Grower2Grower

Article Edited by Marie Vogrincic, Editor, Grower2Grower

Categories
Category

Covid-19 doesn’t slow down High-Tech Greenhouse Construction

Apex MD James Harris excited about future

 

Recently I met with James Harris, Managing Director of Apex Greenhouses, at a project currently being built near Auckland, New Zealand.  I wanted to talk to James about the state of the industry post the Covid-19 lockdowns NZ has endured so far this year.  

Six months ago, in the first NZ lockdown, James was unsure how or if upcoming projects would go ahead. However, not only are they going ahead but business is thriving in both New Zealand and Australia.  Currently Apex have brand new high-tech glasshouses under construction in both countries.  James is excited about the future and delighted with the current situation – he is absolutely thrilled they have been able to retain their loyal, knowledgeable and talented staff throughout these tough times. Without these vital manufacturing and construction teams, no greenhouses would be built.  Apex directly employ over 30 staff both in NZ and Australia combined and have experienced contractor partners for every type and size of project.

Apex Greenhouses (formerly Faber Greenhouses), has been building greenhouses in New Zealand and Australia for over thirty-five years. Apex are a trusted brand; their greenhouse structures stand the test of time and can be found throughout NZ and Australia.   They are a leader in adapting new technology, enabling them to engineer greenhouses to suit the individual needs for all their customers.  Investing in new machinery has been a game changer and keeps them at the forefront of high-tech greenhouse construction.

 

Greenhouse horticulture, or protected cropping, is starting to accelerate in New Zealand, after years of moderate growth, both smaller and larger businesses appear to be investing in new structures and new technologies.  Covering an extensive range of greenhouse cultivars, from traditional vegetable & flower crops and now expanding into berry, herb, plant raisers and medical cannabis nurseries. 

 

Benefits of building a high-tech Glasshouse:

There are endless benefits to growing in a high-tech glasshouse structure. The capital costs may initially be higher but they are extremely low maintenance, which makes these structures an attractive option.  I asked James for a list of the main benefits of building an Apex Greenhouse:

  1. Low maintenance
  2. Longevity
  3. Equipment integration
  4. Crop support
  5. Durable
  6. Greater light transmission
  7. Sustainable (the life span of Glass is huge)
  8. Height of structure

Another major benefit is the module nature of the Venlo style glasshouses that won’t outdate.  This makes it easy for growers to add to their greenhouses if they wish to expand.

 

This glasshouse has been built with a 6-meter post height.  This gives high-tech glasshouses a major advantage over other structures as many growers prefer and understand the climate benefits that taller structures offer their crops.

 

Turnkey Options and Support Network:

“Every growing operation is different; some customers will simply purchase the structure. However, others will require and want turnkey options offered by us”. Apex have built partnerships with a large range of trusted suppliers providing their customers bespoke or traditional internal fitouts.  This service is beneficial for new companies entering the horticulture industry as well as existing business’s looking to move into glasshouses and those looking to upgrade current structures, that may not be familiar with the latest technologies and equipment available.

 

Listed below is some of the key systems and equipment available:

  1. Screens
  2. Heating systems
  3. Irrigation systems
  4. Environmental computer systems
  5. Water storage tanks
  6. Cooling fans and wet wall systems

To view more click on the link to see the extensive range of equipment that can be provided. https://apexgreenhouses.com.au/equipment/

 

Apex has recently constructed a brand-new purpose-built structure at the Auckland Domain.  Big or small anything can be achieved.

https://apexgreenhouses.com.au/project-auckland-domain/

 

Building Consents:

Organizing building consents is a daunting prospect for most.   Apex will assist with this part the process, which is sometimes seen as a massive hurdle for those entering into the industry unsure of the rules and regulations surrounding building a high-tech glasshouse structure.  Apex will help with requesting information from councils and help you navigate through the regulations.

 

Repairs and back up services:

Despite maintenance on a glasshouse being low it is still necessary to offer growers a repair and back up service. This is available in both New Zealand and Australia and can be called upon to maintain or carry out essential repairs as and when required. 

 

“Proof is in the longevity”:

Over the past 30 years large investment has been made to ensure Apex is at the forefront of high-tech greenhouse construction.  James said they work hard to stay on top of new designs, to understand and work with the different requirements for growers.  As an example, many growers are now using energy or diffused screens and some growers even have double screens.  By having partnerships with other suppliers, they work with them to make sure fitting such products into their design’s is seamless

As for the future James said the ‘Proof is in the longevity” and that the Venlo style greenhouses Apex construct are proven and stand the test of time.  James is confident, even with Covid-19 causing massive disruption around the world, that they will continue to progress and invest in new technology to best support the need of the New Zealand and Australian high-tech glasshouse market.

 

Apex recently completed a Medical Cannabis growing operation in Australia. This client chose for a diffused glass system, venting with insect netting, rolling benches, shade screens and blackout screen systems and an LED lighting system.

 

Apex Greenhouses also offer plastic greenhouse solutions for crops or areas more suited to this type of structure.

If you are interested to learn more about the opportunities Apex can offer click on the link below and contact them today: https://apexgreenhouses.com.au/contact/

Cover Image: James at a new build under construction in New Zealand.

 

I appreciate your comments.  Please feel free to comment on the grower2grower Facebook page:

https://www.facebook.com/StefanGrower2grower/

Article Written and compiled by Stefan Vogrincic, Consultant, Grower2Grower

Article Edited by Marie Vogrincic, Editor, Grower2Grower

Categories
Energy

Energy Market Guide Welcomed by Horticulture Industry

INDUSTRY INFORMED

 

Recently, Azwood Energy released an extensive wood energy market guide document that was welcomed from a range of sectors including dairy, education, and horticulture.

The 40-page, 10-part document explains and shapes a factual and evidence-based outlook into energy in New Zealand including:

 

  1. Process heat barriers, challenges & solutions

  2. Business cases

  3. Conversion costs

  4. ETS & wood energy

  5. Availability of wood for energy

  6. Wood fuel specifications

  7. Technical data

  8. Quality management

  9. & Case studies

Download your copy of the Wood Energy Market Guide here: https://www.azwood.co.nz/Industrial+Energy/WEMG.html

 

THE 3 LATEST SUCCESS STORIES IN HORTICULTURE

 

 

Title: Mac Hops – Coal to Pellet Fuel Conversion

Description: “The capital outlay was next to nothing” – Brent McGlashen, Mac Hops

 

 

Hot Lime Labs Extracting Clean Carbon Dioxide

Description: “It gives a bigger yield and better fruit at the same time so they probably would have increased the output by 10 per cent,” – CEO,  Vlatko Materic

Link: https://www.tvnz.co.nz/one-news/new-zealand/new-technology-extracting-clean-carbon-dioxide-win-greenhouse-growers-environment

 

Successfuel® Low Carbon Hop Production

 “My recommendation is [that] they should consider wood chip as a viable option, both form the economic point of view and the environment point of view” – Kim McGlashen, Mac Hops

 

 

 

To learn more about how Azwood can help you contact Jonathan McKeown, Azwood Energy

Ph: 03 547 4836

Freephone: 0800 299 663

Web: www.azwood.co.nz

E: Jonathanm@azwood.co.nz

 

Categories
Events/Announcements Integrated Pest Management

Zoom Thrip Workshop Review

Berry and Cucumber Market worth NZ $2 Billion

 

Two weeks ago, Dr Gunjan Gera gave a 30-minute presentation, via Zoom, discussing several options for growers to combat thrip populations and the damage they cause.  I asked Dr Gera to focus on two crops in particular that are renowned to be severely affected by thrips, cucumbers and berries.

Two immediate statements caught my attention was the size of those combined markets valued at $2 billion NZ!  With Thrip damage estimated to cause anywhere from $5,000 to $50,000 /ha/year it is evident that limiting thrip damage is vitally important.  I predict that for indoor cucumber production that the cost per ha could be much higher when thrips rapidly take control.

 

Virus Carriers:

Thrips carry over 20 viruses including being vectors for Tomato Spotted Wilt Virus (TSWV) which is particularly harsh on susceptible capsicum varieties.  

The current management of thrips on strawberries, in NZ, is mainly reliant on the agrichemical spray programme which is unsustainable and with the increasing number of crop covers/low tech greenhouses being built, for strawberries, then using beneficial insects to control thrips will be a great option.

Why use Integrated Pest Management (IPM)?

  1. Effective against pests
  2. Fine high-quality yield
  3. Safer for environment and workers
  4. Reduced Compliance
  5. Happy Consumers
  6. Stop the resistance build up
  7. High benefit/cost ratio

IPM is about three main factors:

 

A: Cultural, physical and behavioural control.  This may involve, pruning, covers or reflective mulch for strawberries as an example

B: Biological Control, such as using beneficial insects, in this case Amblyseius cucumeris, Hypoaspis aculiefer, Macrotracheliella nigra and Green        Lacewing

C: Chemical control (but only as last resort)

Even though chemicals are not preferred and can be harmful to beneficial insects they are a valuable tool that should only be used if biological intervention has not provided enough protection.

 

Monitoring:

With the introduction of sticky traps, you are able to trap and monitor thrip incursions as well as gauge population size and easily identify hot spots in a greenhouse.  With this information you are able to correctly apply the beneficial insects, in the right place, to effectively control thrip populations spreading.

Application Rates:

Dr Gera provided beneficial insect application suggestions including the interval times.  She also had a list of compatible products to help combat thrips as part of a sustainable IPM programme

 

Do The Predatory Mites Really Work:

Blueberry growers Gordon and Carla Van Oosterhout have completed a trial on a 1.5ha block of Blueberries, under a Quiedan tunnel in Tauranga.  The trial duration was from September 2019 to September 2020.  Thripex (Amblyseius cucumeris) was applied fortnightly, even though there were temperature variations from single digits to over 30 degrees the results were well received.  There was a major reduction in spray application with only leaf rollers and other minor bugs requiring intervention.  The use of Thripex was stopped while the use of other sprays was carried out.

Grower Feedback (Gordon and Carla Van Oosterhout)

“From our observation we have been very impressed with the results we have gained from using Thripex.  It did a fantastic job and was very easy to use.  We would definitely use it again and recommend it as an alternative to spraying”

 

A lighter touch:

As a protected cropping industry and especially those with cultivars effected by thrip damage IPM is another extremely valuable tool for the box.  The major benefit is to reduce, and if possible, eliminate spraying insect pests that are building resistances to chemistry options.  This will enable the protected cropping sector to continue to meet the demands of consumers.

 

Zonda Beneficials are playing a very important role in developing IPM programmes that benefit growers by creating sensible sustainable solutions.  If you wish to know more about Zonda’s biological control products, please feel free to contact them.

 

Ph: 0800 4 ZONDA (96632)

www.zonda.net.nz

Categories
Technical

Light fluctuates like a yoyo

More challenges for growers

 

Last week light levels were erratic with some fantastic days proceeded by very dull, wet and windy days. Some crop reports showed 25% less light compared to the previous week.  The weather pattern is not uncommon for this time of the year but never the less it is extremely hard on older crops or crops with high fruit load. Sun is definitely a grower’s best friend; however, it is those pesky clouds which throw spanners into the works.

When the sun does burst through it is extreme and crops can flag very quickly, even if they have the best root system a sudden shock can cause plant stress.  Even though I promote the use of both wind and lee vents equally it has become necessary, in certain situations to reduce wind side vent activity to maintain relative humidity and protect crops.   The changing of seasons creates additional challenges with increased wind gusts, which again makes it difficult to liberally use the wind side vent.  Personally, I like to ensure the wind side vent is active to allow good airflow patterns and distribute ambient Co2 evenly.   This is especially important for growers that do not use supplementary Co2.  My advice though is to protect the crop, it is a change of season so be mindful of your wind side vent settings/influences.

 

Light Diffusion:

For glasshouse growers it is ideal to apply diffused products such as Redufuse or Redufuse IR.  Growers that have access to roof sprayers, or able to justify a helicopter, to apply the products are reaping huge benefits from plant health and an increase in crop production.  The issue is unless you have a custom-made sprayer, or are prepared to engage with a helicopter spraying contractor, it is perceived cost prohibitive to apply the products.  I floated the idea of using drones for smaller growers but this idea is yet to come into fruition (to my disappointment as it is rather appealing).  Smaller growers need a system that can spray their greenhouse safely and efficiently using a spray boom that is light and easily transferred from gutter to gutter.  Temperatures are increasing and the weather more extreme, these products offer growers a huge opportunity to improve not just production but help maintain quality outcomes for their produce. 

I have personally seen the huge benefits of using coatings such as Redufuse.  I fully endorse the product and believe all growers could benefit from spreading light more evenly throughout their crops and if you use Redufuse IR you could also reduce heat radiation, by it bouncing back off from the glass or plastic greenhouse. 

When it is time to remove the diffused coatings, you will require Reduclean to remove the coating in the Autumn.  This has to be done.  By doing this you also kill two birds with one stone, you remove the diffused coating and clean the glasshouse at the same time. 

Cover image taken this week.

 

I appreciate your comments.  Please feel free to comment on the grower2grower Facebook page:

https://www.facebook.com/StefanGrower2grower/

Article Written and compiled by Stefan Vogrincic, Consultant, Grower2Grower

Article Edited by Marie Vogrincic, Editor, Grower2Grower

Categories
Supporting Services

Powerplant’s Announces New Partnership with Advanced Hort

Key account management for New Zealand

 

Advanced Hort is very excited to announce a new Strategic Partnership with Powerplants Australia.

Advanced Hort has recently joined forces with Powerplants Australia to help service the New Zealand Horticulture Industry. Nathan Hewson, the Managing Director has spent the last 12 months working in Australia, receiving product and technical training from the team at Powerplants on a wide variety of products, equipment and machinery that is designed and specialised for the Horticultural industry. After living between New Zealand and Australia for some time, Nathan is back in New Zealand permanently to bring this new knowledge with him, to help service new and existing clients right across the country, helping them find efficiencies in their new or current systems.

Nathan is responsible for the day to day operations as well as Key Account Management for New Zealand. Nathan's role also includes overseeing system design and recommendations for all New Zealand customer inquiries that come through Powerplants. Advanced Hort offers a wide range of services from system design, equipment supply, installation, and system maintenance service and support. Advanced Hort’s product offering will be very similar to Powerplant's current offering.  While Advanced Hort is a Authorized Priva Dealer, there is extensive knowledge of other horticulture irrigation and climate control systems.

Advanced Hort’s primary focus is to provide service and maintenance to existing as well as providing new specialist equipment to all sectors of the horticultural industry, with experience in large scale substrate berry production, hydro vegetable and lettuce production as well as Govt/R&D facilities and nurseries. Since partnering with Powerplants, Advanced Hort is able to offer a much wider range of horticultural equipment that any other horticultural service provider in the country. Some of the key products that Advanced Hort is servicing and supplying are

  1. computer controls and water/fertigation units
  2. climate controllers
  3. climate systems such as lighting
  4. circulation fans
  5. screen systems and ride-on sprayers
  6.  labour management/tracking systems
  7. nursery automation equipment including side shifting and automated benching systems.

Image above is Priva Nutrijet systems supplied by Advanced Hort

 

Advanced Hort is also partnered with a number of other suppliers to be able to provide full turn key solutions for major projects right down to supply only of irrigation fittings or consumables.

Simon Gomme Commercial Director at Powerplants made the following Statement  ”We are very excited at having Advanced Hort as a partner for the New Zealand market. There are a lot of opportunities for our solutions in New Zealand and Nathan has an excellent technical skillset and great market knowledge.”

Advanced Hort’s Managing Director, Nathan Hewson: “I am very excited to be partnering with Powerplants which is part of the PB tec group. The PB tec group is one of the main horticultural system providers in Europe and North America and has experience with undertaking projects on a global scale. This strategic partnership will enable Advanced Hort to offer New Zealand growers the best technology available, backed up with vast knowledge and experience. It is also exciting to see Advanced Hort currently working on some large-scale projects that will be a first for New Zealand.”

 

For enquires please give the team at Advanced Hort a call today

Nathan Hewson
Managing Director of Advanced Hort

M: 027 378 5481

Office: 07 220 9639

E: nathan.hewson@advancedhort.co.nz
W: www.advancedhort.co.nz

 

 

Image of Priva Groscales supplied by Advanced Hort. 

Image of Side shifting benches supplied by Advanced Hort

Categories
Greenhouse News

Covid-19 may potentially disrupt exports

How will this effect crop management

 

There have been multiple discussions in regards to the potential disruption of exporting fresh produce this summer, especially air freight.  Although shipping could face challenges as well.  If exporting does become an issue then companies/growers will have to adapt and be prepared to manage crops that may saturate the domestic supply. 

 

Intelligent Crop Management (ICM)

Growers are continually trying to maximise production.  However, this year, or early next year, an alternative should be considered, which is reducing fruit load per m2, while optimising plant vigour ensuring long crops which finish strong in late autumn. 

There are some real benefits to reducing fruit numbers and increasing plant vigour, including the ability to supress nasty insects more effectively. If growers are concerned plants will become too strong then increasing extra day temperature won’t be an issue.

Whitefly is a major pain, it is a broken song sheet I sing from, but it is a constant battle that just gets worse.   This year especially in the North Island it is already an issue for greenhouse growers (and advisors).  Psyllids are already rearing their ugly heads which is more than likely going to affect crops prone to Psyllid yellows, a disease caused by Candidatus Liberibacter.  Psyllids pose a much bigger threat to crop losses than whitefly if left unattended and chemical intervention is still imperative which highlights ICM and benefits it would have in the coming months.

 

Benefits of ICM:

  1. Increase plant vigour/health that should help in the battle against whitefly.  This may enable growers to save the necessary chemistry required to combat Psyllids, if Psyllid yellows become an issue.
  2. Reduce volumes and poor-quality product that will be sold well below value or even dumped.
  3. A reduction in volume (at a time when produce is sold below cost) will reduce labour and transport costs which cannot be recouped.

Reducing the need for extra labour units at a time when employing willing workers is near impossible is another very important factor of an ICM approach this summer.

 

The Caveat:

You can always take fruit off a plant but you cannot immediately add it back on, so you may wish to take a wait and see approach, as the next few months unfold.  The balance of the plant is always a factor.  However, bearing in mind the issues of recruiting good staff, insect pressure and uncertainty around export, I would definitely consider my options in regards to the strategic growing approach this season.  Definitely quality over quantity, reduce the pressure on the plant if there is no reward in it for you or your bank balance.

 

Consider your Competition:

The domestic market during summer is extremely competitive therefore if produce supplied is less than premium quality during the season it may struggle to be moved fast enough via the supply chains. 

 

Marketing:

Increase consumption by reminding your neighbour if he has more BBQ’s and eats more tomatoes, his health and well-being will improve ��

 If you wish to learn more about ICM please feel free to contact me for one on one advice that will suit your crops requirements.

 

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Article Written and compiled by Stefan Vogrincic, Consultant, Grower2Grower

Article Edited by Marie Vogrincic, Editor, Grower2Grower