February 2022 Edition Issue No. 7
GROWING SUCCESS Welcome to the latest edition of Growing Success, where we highlight new and key products, offer practical guidance on herbicide use, hear more about a topical research project and provide clarity around agrichemical standards and certification requirements.
We have adapted to this challenge through our work with
We all continue to operate our businesses in unprecedented conditions of uncertainty, whether that’s supply chain pressures, market disruption, labour force constraints or new regulatory frameworks. In many respects the health of our export economy is testament to the hard work, innovation and market-led focus of our farmers and growers. I’m confident that this approach will serve us well, as we continue to navigate the challenges ahead.
Farmlands Technical Advisor or local store.
FAR_10406
Farmlands is proud to be a key partner of many primary producers and we take the responsibility of supporting our shareholders through these turbulent times very seriously. Ensuring consistent supply of critical inputs has been more challenging than ever over the last 12 months and our suppliers advise us that disruption is likely to continue through into 2023.
suppliers, supply chain and use of in-house technology, to ensure that product supply for our shareholders remains an absolute priority. If you have any concerns around key product supply for next season, please reach out to your I’ll leave you with the words of our Chairman, Rob Hewett from his 2021 Annual Report. “In 2022 Farmlands Co-operative turns sixty. It’s a timely reminder that we have served, supplied and supported generations of kiwi farmers and growers and their businesses. We were created to disrupt, compete and challenge. Our ambition is to continue to re-invent, to be relevant and to help you succeed.” All the very best for the harvest that many of you are about to embark upon.
Mark Daniels Head of Horticulture Farmlands
NEW PRODUCT
Choose your weapon for dust supression The changing climate in
and vineyards are facing issues
essentially helps reduce time-consuming and expensive road repairs. Antidust will also prevent accidents caused by poor visibility and helps reduce health problems related to airborne dust particles.
around dust control from a health
Further advantages of Antidust are:
and safety, environmental and
• Reducing the risk of dust and ground surface contaminants being blown up onto fruit in rows adjacent to tracks and driveways.
New Zealand is indicating more drought like conditions for the future. Increasingly, farms, orchards
crop safety point of view. Mining & forestry industries, as well as regional authorities have been using dust suppression technologies for over 25 years to effectively control dust. Biolchim New Zealand is now providing a solution to this issue with Antidust. A costeffective dust control product that can maintain road surfaces, headlands and farm, orchard and vineyard tracks from deterioration. Untreated road surfaces require more frequent repairs of potholes, washboard and rutting. Antidust will assist in compacting road surfaces which
• Minimisation of excessive dust during harvest which can be a nuisance to workers, neighbours and the community at large. During drier seasons, harvest activities will likely result in increased dust due to lack of rainfall. • Prevention of dust particles from entering streams and waterways where they can contribute to sediment levels which can be dangerous to aquatic life.
Application Method and Rates: To ensure effectiveness throughout summer, Antidust should be applied over 2-3 applications, 15-20 days apart. Wet evenly with 40 to 50 litres of solution (15 to 20 litres of product) for every 100 m2 of surface area. Depending on conditions and season, application rates can vary for y our property. Antidust is a safe and cost-effective solution to control dust on your property. This product is distributed in New Zealand exclusively through Farmlands. For further information, contact your Farmlands Technical Advisor or the friendly team at your local Farmlands store. Article supplied by Biolchim.
KIWIFRUIT
Research supports use of Actigard® post-harvest Post-harvest is a high-risk period
post-harvest can help reduce
for Psa in Kiwifruit, with cooler,
Psa pressure.
wetter weather conditions favouring
Actigard is unique in that it interacts
infection. Around 300,000 to
directly with the plant, triggering its
500,000 wounds per hectare are
natural self-defence mechanisms to
created at harvest on fruit stalks,
help protect against Psa infection.
providing entry points for Psa.
Until recently, most of the research into
Psa infection that occurs post-harvest
the effectiveness of Actigard has been
may not be visible until the following
focused on spring applications prior
spring, but applications of Actigard
to flowering, where visual effects can
®
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be measured by how well leaf spotting and shoot dieback are controlled a few weeks after application. In 2019 Syngenta, Zespri, Kiwifruit Vine Health (KVH) and Plant & Food Research collaborated to design a research programme to get a better understanding about post-harvest use of Actigard and what impact (if any) it was having on kiwifruit vines at this later growth stage.
As Tony Reglinski, Senior Research Scientist at Plant & Food Research explains, “the best way to understand the effect of Actigard in the post-harvest window, is to look for changes in the defence gene expression in Actigard treated vines compared with the untreated vines. An increase in gene expression is likely to equate to an increase in protection against Psa.”
evidence of the value in using Actigard post-harvest to help protect vines against Psa infection, occurring from fruit scars and leaf fall after harvest. It also indicates good flexibility in the application timing of Actigard in relation to leaf condition after harvest.
The good news is the vines were responsive to Actigard on both early and late harvested Hayward vines and the gene response patterns were similar. This is good supporting
A maximum of four sprays of Actigard can be applied on kiwifruit each season at 21-day intervals. This normally allows two sprays if the first spray is applied immediately post-harvest. To avoid the
Further work is being carried out on Gold3 this season and hopefully new data will be available in the coming months.
risk of residues, extreme care must be taken to prevent spray drift into unharvested fruit in adjacent blocks. Leaves need to be actively photosynthesising for Actigard to be properly absorbed. Actigard is likely to be less effective if applied to leaves at an advanced stage of deterioration, or after a significant frost event. For more information on how best to use Actigard in your kiwifruit orchard for Psa control, contact your local Farmlands Technical Advisor. Article supplied by Syngenta
SOIL
The importance of humates in soil structure Humates are a pure form of organic matter, resulting from an accumulation of decayed forest and carbon rich plant residues that have been compressed and preserved over the ages. High in carbon, natural minerals and trace elements, Humates contain two powerful bioactive acids, humic and fulvic acid. The material is known for the beneficial role it plays in stimulating microbiological activity and increased fungi levels in soil. Humic acid is a group of molecules that bind to and help plant roots receive water and nutrients. They are therefore extremely important as a medium for transporting nutrients from the soil to the plant. Their ability to hold on to ionized nutrients prevent them from being leached. Positive ions are more easily absorbed
by a plant’s root due to the root having a negative charge. In other words, the positive (cation) is attracted to the negative (the living root). Humic acids hold cations (positive ions) in a way that can be more easily absorbed by a plant’s root, improving micronutrient transfer to the plant’s circulation system. This works through humic acids (ulmic, humic and fulvic) picking up positive ions and then being attracted to the root depletion zone and to the hyphae micro- tubes of mycorrhizae. Four years of independent field trials have resulted in a paper being published in Nature Science Journal confirming the addition of humate to urea increases pasture growth. The full paper is available under “Articles” at www.southernhumates.co.nz A field trial is just underway in the Bay of Plenty that will assess the effects of humates in reducing nitrate leaching
in kiwifruit orchards. A further kiwifruit field trial is investigating the effects of humates on heavy metals and this is indicating a positive result. International lab analysis of Southern Humates product indicates a high level of carbon, 43%; humic acid, 48%; and Cation Exchange Capacity (CEC) of 78 meq/100g. It is generally considered that the high levels relate to the geographic location of the Southern Humates site in the deep south at Wyndham. Southern Humates supplies a range of products in both solid and liquid form to meet spreading requirements across both agriculture and horticulture sectors. The range is certified organic for input. For further information please contact your Farmlands Technical Advisor, or local Farmlands branch. Supplied by Janet Brooker Southern Humates
FARMLANDS - GROWING SUCCESS | 3
VITICULTURE
Advanced copper with Kintech technology Grochem has launched a new generation copper formulation, Norshield® 45WG, using new technology from Europe. Norshield 45 WG reduces copper use rates by up to 30% for grape disease control, while maintaining the same level of efficacy as Nordox 75WG.
Why the change? Norshield 45WG has
Efficacy comparisons were made
more activity per gram of copper thanks
alongside other commonly used copper
to an improved formulation and reduced particle size. This has shown better disease efficacy at lower use rates of
fungicides and tested for disease control outside of the area treated.
active copper per hectare.
The trial below shows the treatment
Norshield 45WG has a dual mode of
area in red and the level of control by
action. The traditional direct mode of
each copper product in the untreated
Norshield 45WG has superior rain fastness and is BioGro approved for organic crop use in New Zealand.
activity of copper, plus the addition of
zones. This trial illustrates how
Manufactured by Nordox, Norshield 45WG contains 450 g/kg copper as cuprous oxide and is registered for use on grapes for Black spot, Botrytis, Sour Rot, Downy and Powdery Mildew.
Scientists found the new formulation
Developed in Norway to meet tough European regulatory standards. Norshield 45WG is now a leading viticultural fungicide in France, Italy and Spain. Showcasing lower copper use rates per hectare and gaining international organic certification.
plants natural pathways. This provided
Kintech technology to stimulate the plants own resistance pathway. had crop enhancement properties too. They found Norshield 45WG activated the plants own defence systems by inducing resistance and using the
Norshield 45WG induces resistance using the plants natural pathways after being applied to a single zone on the leaf surface. Norshield is available in a 10kg bucket. To learn more about Norshield please
disease control beyond the contact
call your local technical advisor,
zone of applied product.
Grochem representative or
This was demonstrated in a laboratory
visit www.grochem.com.
by treating grape leaves in only one zone, on the underside of the leaf and the inoculating the leaf with downy mildew.
Norshield ® is registered under the ACVM Act in New Zealand. ‘ACVM Registration No. P009734.
Severity 7 days after inoculation
UTC
NORSHEILD
Reference Cu-hydroxide
Effect of the treatments - NORSHIELD has increased efficacy at the same rate of copper
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Nordox 75WG
SUSTAINABILITY
Kiwifruit nutrient leaching study In a joint project with Southern Humates, Farmlands is seeking to understand opportunities for improvements in water quality and sustainability, to drive better nutrient efficiency within kiwifruit orchards. Nitrogen leaching is fast becoming a major topic for New Zealand orchards. Currently regional councils are in the process of developing legislation and implementing policy for managing freshwater quality. Driven by the Resource Management Act and the National Policy Statement for Fresh Water, councils will take a varied approach in setting limits across catchments and designated sensitive areas to control nitrogen losses to ground water. Overall this will impact farm, orchard and vineyard management and in some instances their economic viability. The pilot study involving Farmlands and Southern Humates is a proof-of-concept test to validate nitrogen measurement work already underway, comparing use of humate products on Southland dairy farms. The Southland trials are showing promise, demonstrating increased dry matter production and nitrate loss reduction. Both Farmlands and Southern Humates are enthusiastic to learn if the paradigm can shift into the horticulture industry.
| Lysimeters being installed in the kiwifruit orchard The project is underway with
licence to operate. Ross was subsequently
12 lysimeters buried in the pumice/sandy
involved in change management
soils on 8.2ha of kiwifruit at Ross and
processes that lead to forestry companies
Dell Bawden’s 37ha mixed farm property
signing up to the Forest Stewardship
in the Bay of Plenty. The lysimeters are
Council environmental accreditation
testing three treatments that growers
programme. This was a precursor to the
currently apply to orchards.
Environmental, Social and Governance
Two treatments will have nitrogen mitigation
standards that corporations aspire to now.
techniques applied. It is hypothesised that
Ross is quick to quip “social license is hard
if nutrient efficiency can be obtained, then
to get but is easy to lose.”
improved water quality can be achieved.
It is inevitable that many horticulture
Measurements will be taken after rain
operations will suffer nutrient losses.
events and tracked over time. If the project
However more efficient use of nutrients
demonstrates positive outcomes, then
such as nitrogen will have strong
further work will be undertaken to validate
sustainability benefits for growers, both
and model the findings.
financially and environmentally. There is
Ross is no stranger to environmental issues within the primary sector having worked as an operations planning manager for a significant Bay of Plenty forestry business. He has witnessed what happens when an industry runs into environmental issues and loses its social
a strong belief the data obtained over time will give growers the ability to make informed decisions on how to better manage nutrients. Watch this space. Article supplied by Dwayne Farrington Technical Leader – Kiwifruit & Subtropical Crops Farmlands.
FARMLANDS - GROWING SUCCESS | 5
AGRICHEMICAL UPDATE
Agrichemical certification requirements With a recently released New Zealand Standard for the Management of Agrichemicals and some misunderstandings around the requirements for purchase and use of agrichemicals, it’s timely we clarify the situation.
A key change to the scope of the
qualification. Purchasers of some
Standard is to limit its application
agrichemical products are required to
to the workplace. The Hazardous
have a valid Certified Handler certificate.
Substances Regulations 2017 are a
There are however a relatively small
significant determinant of the rules
number of products in this category.
applying to hazardous substances
Previously classified under the old HSNO
and these regulations only apply
hazard classifications 6.1A and 6.1B,
A new standard was released in August 2021 for the Management of Agrichemicals: NZS8409:2021, superseding the 2004 standard (NZS8409:2004). This was written following a 10-month review process and 12-week public consultation period.
to the workplace, rather than non-
the Environmental Protection Authority
commercial (residential) locations.
now classify these under an international
There is some confusion about the
classification standard, GHS (Globally
training and certification requirements
Harmonised System of Classification and
for the purchase, storage and use
Labelling of Chemicals) class – see below.
of agrichemicals. Fortunately this
A list of the products that require
The agrichemicals in this standard include pesticides, veterinary medicines and extends to the agricultural use of detergents and sanitisers.
information can be found online by
the purchaser to hold a Certified
visiting hazardoussubstances.govt.
Handler certificate can be found on
nz and using the calculator. To do this,
the Growsafe website under the tab
you will need to have the Safety Data
Resources and “Product requiring
The standard covers storage, supply, transport, use and training requirements for agrichemicals in New Zealand and includes relevant information governing the use (including off label), spray planning, transport, storage, handling, disposal and consistent good practice.
Sheets for all of your agrichemicals.
CH”. Farmlands can also advise which
Further information can be found on the
products require this certificate.
WorkSafe or Growsafe websites, or by
In addition, as shown in the table below,
searching ‘agrichemical training NZ’.
there are products that can only be used
Worth noting is that Approved Handler
in the workplace. Suppliers/retailers
certification no longer exists and has
must be provided with evidence that a
been replaced by the Certified Handler
competent person in that workplace will take responsibility for these products.
GHS Class
HSNO Classification (Old)
Competency Requirements
appropriate training and instruction in the The Standard lists what the competency
6.1A
Certified Handler
training must include. This information can also be found in Clause 4.5 of the
Acute toxicity inhalation category 1
Hazardous Substances Regulations. A Growsafe Standard certificate is one type of acceptable evidence of competency,
Acute toxicity oral category 2 Acute toxicity dermal category 2
person as someone who has had management of hazardous substances.
Acute toxicity oral category 1 Acute toxicity dermal category 1
The Standard describes a competent
as is a Certified Handler certificate 6.1B
Certified Handler
Acute toxicity inhalation category 2
or any other training which meets the requirements laid out in the Standard or Hazardous Substances Regulations. The requirements set out above relate
Acute toxicity oral category 3 Acute toxicity dermal category 3
to the sale or transfer of products. There are different requirements for 6.1C
Competent Person
training and competency relating to the use of products, particularly where
Acute toxicity inhalation category 3
products have environmental hazard classifications. Further information
Carcinogenicity category 1
6.7A
Competent Person
relating to this can be found on the Growsafe website. Or phone: 0508
Skin corrosion category 1A
8.2A
Competent Person
GROWSAFE (0508 476 972) Article supplied by Farmlands
6 | FARMLANDS - GROWING SUCCESS
HERBICIDES
Chemical weed control 101 Growing a crop and maximising yield can be challenging with the presence of weeds. They can multiply through seed, rhizomes or cuttings and can be spread by cultivation, birds, humans, machinery or wind. Weed identification and understanding how they grow is important when planning to successfully manage the weed problem. Understanding the following herbicide classifications will assist in decisionmaking on weed-control. These classifications describe the action of the product once applied to target weeds (active ingredients examples in brackets): • Selective: Controls only certain types of plants (clethodim, oxyfluorfen, linuron) • Non-selective: Damages or controls most plants (glufosinate, glyphosate) • Systemic: Translocated throughout the plant (glyphosate) • Contact: Controls only the portion of the plant that is treated (paraquat, carfentrazone) • Pre-emergent: Controls plants once the seed germinates and as it emerges through the soil (pendimethalin, oryzalin) • Foliar systemic: Applied to top growth and translocated throughout the plant (glyphosate) • Soil Active systemic: Absorbed into the root system and translocated throughout the plant (terbuthylazine) The mode of entry is the primary means by which a herbicide is transported into the plant. This can be either by uptake through the leaf, taken in by the soil or both. Understanding Mode of Action (MoA) • Herbicide labels display the term “mode of action”. This is the plant’s cell division and growth in response to the herbicide, or the sequence of events leading to the plant’s death • The mode of action displayed on the label will assist the user in managing herbicide resistance
What is herbicide resistance? Continuous use of a herbicide in the same MoA group increases the selection for herbicide resistance. Effectively the weed species will get used to having the same cell division process being disrupted and will find a way to “resist” this process. Once a weed species become resistant, herbicides with the same MoA will no longer be effective, i.e. the weed species becomes resistant to this herbicide. How should herbicide resistance be managed? • Reduce the reliance on a single herbicide MoA • Use herbicides from different MoA groups, alternating or mixing them (always check the product label or seek advice prior to mixing products) • Alternate herbicide use with other weed control strategies e.g. mowing
Herbicide Application - some considerations: • Make applications when windspeed is between 5 km/h and 15 km/h • Use shrouded application equipment to prevent any possible crop damage • Have spray equipment accurately calibrated to ensure that the correct amount of chemical and water is applied • Consider weather conditions i.e. drying time, humidity and drought/plant stress that affect herbicide uptake • Water rates: Follow label recommendations • The inclusion of adjuvants: Always consult the product label • Health and Environmental hazards • Adhere to industry risk management guidelines relative to the crop
• Apply herbicides at the recommended label rates for the hardest to kill weed
Further information can be obtained from your local Farmlands Technical Advisor and from the Farmlands GrowGuide App - available on Android and IOS App Store.
• Do not under-dose herbicide products.
Article supplied by Mart Verstappen, Farmlands Technical Leader Viticulture.
FARMLANDS - GROWING SUCCESS | 7
ACTIGARD® your kiwifruit Presentation title against Psa post-harvest. Name
• ACTIGARD® is a systemic plant activator, which triggers the plants natural self-defence against Psa. • Apply 200 grams per hectare immediately postharvest and 21 days later - subject to leaf condition. • The addition of copper is recommended. For more information contact your local Farmlands store or visit syngenta.co.nz
®
®ACTIGARD is the registered trademark of a Syngenta Group Company. Registered pursuant to the ACVM Act 1997, No. P8487. Always read the label completely before use.
®
®
™
LIKE BEING LOCAL. THE FEELING’S MUTUAL. Just like the team at Farmlands, FMG likes to have people on the ground. FMG has been here for farmers all over New Zealand for over 100 years. And it’s something we’ll continue to do for many years to come. If that sounds like the kind of insurer you’d like to deal with, ask around about us. Or better still, call us now on 0800 366 466.
We’re here for the good of the country.