Calling all followers and friends of LandWISE, we invite you to become a financial member this year.
Your support is vital for LandWISE to continue doing what we do. We rely on farmer support to ensure the backing of new projects, discover new areas for research or technology adoption, and to fund field days, workshops and the development of practical resources.
LandWISE Membership is a great way to support the mission of sustainable production in New Zealand, and as a member you’ll benefit from:
Results from on-farm trials
Projects focussed on real farmer and grower problems
Regional field days and workshops on a range of topics from conserving soil to nutrient management and novel fertiliser technology
A discounted registration at the 2021 LandWISE Conference
Subscription to our annual LandWISE News publication
Membership is open to all who are interested in primary production and share our values. We hope you’ll consider becoming a member, or forward this on to a non-member if you already are!
We’re not quite sure what to call the job: science manager, extensionist, project manager, consultant? We know it offers diverse activities and needs excellent communication skills and practical knowledge of horticulture and technology.
We are looking for someone to help identify and lead research projects and extension activities across a variety of issues and regions. For the right person, this is a role with considerable potential to grow.
This will be a Page Bloomer Associates appointment. They provide our science, management and support services while having addditional private consultancy activities. Working closely together, we know they share our passion for sustainable land and water management.
Since the dawn of the new millennium we’ve been providing progressive, pragmatic and independent services through projects and consultancy. A key feature of our work is close collaboration with end users, researchers and developers. We talk about “linking thinking from the farm out”.
The role includes engaging with growers, industry and researchers to identify opportunities to review practices and integrate new technologies to create sustainable cropping systems. The appointee will develop and manage projects and support services that support economically and environmentally sustainable primary production.
If you know someone with passion for smarter farming who wants a key role in a small dedicated organisation, Page Bloomer Associates would like to chat with them!
Figure 1. Gene Williams’ levelling blade fitted with Trimble RTK-GPS and FMX with WM-Drain drainage software
Drainage treatments in trial blocks at T&G Global’s Evenden orchard and Bostock’s Red Barn orchard. The narrow window between finishing harvest and the soil becoming too wet to work was longer than anticipated this autumn making the task easier. All earthworks were completed and pasture re-sown. Vehicle access was restricted to allow the pasture to establish and soil to settle.
A range of treatments was included and implemented to compare to the new land shaping approach including Crasborn’s harrow and planter (Figure 2) and Aqualine V-blade, slotting and ripping and rut filling (Figure 3).
Figure 2. Crasborn Orchard Inter-row RutFiller and RegrasserFigure 3. Aqualine fill trailer with splitter to direct brought in fill to rutted wheel tracks
GPS Levelling
Land levelling is a proven technique more commonly used in cropping, where soil is moved around to create fall across a field and allow surface water to drain off. Growers use this approach to reduce water lying on the surface and saturating areas of crop which results in reduce yield. Software is used that is specifically designed to minimise and optimise movement of soil. The height of the blade or scoop used to cut and fill soil is controlled by software through the tractor hydraulics. The same principles are being applied to existing orchard rows to create fall along the inter-rows and drain surface water off the block.
The inter-rows were rotary hoed to create a suitable tilth, to allow small volumes of soil to be moved along the inter-row (Figure 4). The elevation profiles indicated that only light shaping would be required to create fall along the inter-rows, where 100mm would be the maximum change in height (cut/fill) necessary.
Figure 4. Orchard Inter-rows pre and post hoeing, prior to land shaping
Hugh Ritchie’s Trimble RTK-GPS base station was set up in the orchard. Patrick Nicolle’s Trimble FMX unit with WM-Drain software was mounted on the T&G and Bostock tractors. A GPS Control Systems Trimble GPS antenna was mounted above Gene Williams’ 2.5m wide levelling blade, see Figure 1. The tractor hydraulics were used to control the blade height.
WM-Drain was used to record the elevation of each section in the orchard. An accurate RTK-GPS elevation profile was recorded by driving along the inter-row and the WM-Drain software used to generate the optimal profile (Figure 5), within specified parameters, such as minimum slope.
Figure 5. Screenshot of WM-Drain software, the grey area the current ground surface and the green line generated as the optimal profile
Soil was shifted using the blade to cut and fill areas to achieve the optimal profile designed in WM-Drain. Because the tractor hydraulics were not suited to automation without major changes, the blade height was manually controlled using the tractor hydraulics and lowered or raised. Multiple passes (up to six) were required along each row to move soil to create the desired profile. The results of the land levelling are shown in Figures 6 and 7.
Figure 6. Examples of inter-rows after land levelling has been completed
Figure 7. Inter-row profiles after cultivation and before land levelling (grey dotted line) and after land levelling (green line).
After earthworks the alleyways were re-sown in pasture. Vehicle access has been restricted to allow the pasture to establish and soil to settle. Timing is important to ensure orchardists can access blocks to continue their yearly programme in a timely manner, without damaging the newly formed alleyways.
The Crasborn machine cultivates and pulls soil from outside the wheel tracks using a set of angled discs. Harrows are used to break up and smooth the soil. A levelling bar with raised sections above the wheel tracks is used to further even out the soil. A compressed air seeder is used to sow pasture along the inter-row. Finally, a cambered roller creates a crowned inter-row and compacts the soil surface. The all in one implement (Figure 2) completes the final product (Figure 8) in one pass.
Figure 8. Inter-rows after Ricks Crasborn’s implement has been used to cultivate and fill wheel ruts
In 2018, our sixteenth conference addresses the topic of “Technologies for Timely Actions”. We are delighted that LandWISE 2018 is officially part of Techweek, a festival amplifying New Zealand innovation that’s good for the world.
The intention behind Techweek is simple – New Zealand’s technology and innovation sectors are growing rapidly, and Techweek fosters that growth by providing a week-long opportunity for connection and cross-pollination.
The draft programme will be released soon. Members will receive regular updates, but for now pur 23-24 May in your diary. Then come along, listen, discuss:
How can managers and other decision makers get the information they need, process it, and decide what to do?
What is the information they need?
What tools help them make sense of it?
What’s available (or coming) to make it as easy and reliable as possible to do the right thing, in the right place at the right time?
It’s not just robots and computers : the quick Nitrate test promises rapid determination of available N while standing in the paddock – considerable help when deciding “do I put more now or can I hold off?” Combine that with smart crop zoning (that does involve computing) and maybe we can lift quality and reduce impacts.
We look forward to once again greeting delegates at the LandWISE Conference in Havelock North on 23-24 May 2018.
We are absolutely delighted at the calibre of speakers coming together for LandWISE 2018 – Technologies for Timely Actions. They have a wide range of backgrounds, work in a range of different sectors looking at a wide range of different things.
We’ve put information about the speakers on our discussion (blog) posts. Here, they are presented as a list with links so you can follow as you please.
We are grateful for the support of AGMARDT, McCain Foods and Heinz-Watties for helping bring our international speakers to New Zealand.
The story began four years ago when we had a crop of onions at the MicroFarm. To get a good look at the crop LandWISE Manager, Dan Bloomer climbed up the irrigator.
“The view when you get 7m up in the air and look down is very different to what you see walking around, and I saw massive variability throughout the crop,” he said.
Wide variation within the area new to onions does not follow artificial rain or topographic drainage patterns.
“I could understand some of it but a lot more I couldn’t explain. A colleague was playing around with imaging and smart phones and he made an application where we could drive up and down the rows and map the percentage canopy cover. I talked about it with Onions NZ Research Manager Jane Adams who thought it would be quite useful and could lead to greater understanding of variability in onion crops.”
We then partnered with Plant and Food Research with support from Onions New Zealand and the Sustainable Farming Fund to do a project aimed at studying that variability.
Bruce Searle, crop scientist with Plant & Food Research, designed a research approach to get the data we needed to make some practical applications.
“We wanted to figure out where the variability comes from and how much of it is something that a grower can control. So we looked at the different factors that might influence variability and worked through the contribution of each to the overall variability,” he says.
“A lot of it comes down to individual plants growing at different rates – something that the grower can’t do a lot about. However, factors that influence getting good crop establishment are critical to reducing variability, and once the crop is up you can look at poor performing areas within in the crop. The tool that Dan has been working on captures that information so that you can map the field and make some decisions.”
Bruce showing Richard the Quick Test for Soil Nitrate
We have done items with Showdown Productions before and have enormous respect for their work. You can see the result of the onion interviews on Rural Delivery, TVNZ1.
BASF Crop Protection and Hawke’s Bay Regional Council are long term loyal supporters of LandWISE and their contributions are highly valued. Power Farming is a new Platinum Sponsor in 2018 and we look forward to our relationship with them. AGMARDT sponsored our international speakers.
Hawke’s Bay Regional Council has been part of LandWISE since 1999, when some farmers, scientists and industry people got together to try and improve soil quality, stop wind erosion and improve irrigation efficiency and of course yields. Our Mission doesn’t change so much, but the tools to help us along the way certainly have!
BASF Crop Protection has been a foundation sponsor of the LandWISE MicroFarm as well as our annual conferences. They show ongoing enthusiasm to help us help farmers and that is greatly appreciated.
Our new Platinum Sponsor is Power Farming. We’ve had help from them in several of our projects, most recently with the Canterbury field work and field events that were part of our FAR/SFF Fertiliser Spreader Calibration project. The Power Farming catalogue matches well with our conference delegates’ and members’ interests.
AGMARDT has funded travel expenses to bring many international speakers to our Annual Conferences, as well as several projects including “Soils First Farmers” and “Validating Field Robotics“.
Process Vegetables NZ and Vegetables NZ have been conference sponsors for many years. As the levy funded industry research bodies they represent the farmers in our membership and nationally. These bodies also co-fund research projects including a number of our Sustainable Farming Fund initiatives.
Our conference delegates are well supported by our meal sponsors and trade displays. In addition, Apatu Farms sponsor high school students to attend, and McCain Foods and Heinz-Wattie’s are sponsoring keynote Sarah Pethybridge‘s travel. Thanks everyone!
Armin Werner has a background in crop production sciences and as director of an Institute on Land Use Systems at ZALF in Germany worked on enabling new technologies for sustainable development.
Since 2013 Armin has headed the Precision Agriculture Science group at Lincoln Agritech (LAL), a subsidiary of Lincoln University in New Zealand. This covers Precision Farming (arable crops, pastures), Precision Livestock Farming, Precision Horticulture, Precision Spraying as well as Agricultural (Outdoor) Robotics.
Armin’s work has led him to create strong linkages and collaboration projects between various scientific disciplines and sectors including academic institutions, researchers and farmers.
Current projects include trans-disciplinary and technology-based research in NZ for various high-value crops; e.g. on fruitlet counting and sizing for apple crop load management. He manages also the Robotic Spearhead project of the National Science Challenge ‘Science for Technological Innovations’ that develops new knowledge for small, highly adaptable and flexible robots.
At LandWISE 2018 Armin will update delegates on the “Precision Grape Yield Analyser”, a research project on vineyard sensing and yield forecasting that Lincoln Agritech is undertaking.
Armin says,
“The ‘Precision Grape Yield Analyser’ is an ongoing interdisciplinary MBIE-project, supported by NZ Wine Growers and several vineyards. Grapevine yields can vary between seasons by a factor of 2 and New Zealand grape growers are keen to avoid unplanned high yields. To assess the expected yield on the block level very early in the season we develop sensing tools and computer models. AI-based sensor fusion combines data from optical and microwave ‘scanners’ and feed the results into a continuously learning, predictive computer model.
Acuris Systems is developing orchard management systems that provide robotics, data capture and analytics for kiwifruit growers, to detect disease, forecast yield and increase grower knowledge of their orchard and its variability.
Nick and Matt are presenting at LandWISE 2018 on the topic, “A robotic platform for canopy monitoring“.
Nick says, “At the moment we are focusing on accurate fruit counting using photogrammetry and neural networks. Utilising the recent advancements in artificial intelligence and machine learning, we aim to analyse crop, detect disease and forecast yield. Beyond just analysis we want to develop a solution that will robotically automate the kiwifruit growing processes, including the culling of flowers, spraying of pesticide and picking of the fruit itself.”
The Acuris robot is a smaller, three wheeled machine designed to carry cameras and other sensors around kiwifruit orchards.
For something a bit different, check out K9 the walking quadruped, one of Matt’s earlier prototype robots.
Metris Principal, Mark Bart, is an atmospheric scientist with deep interest in air quality and weather forecasting. With long experience in atmospheric measurement including cloud physics, atmospheric chemistry, meteorology and atmospheric dynamics he knows how important sensors, sensor maintenance and data quality are if you want to make good decisions.
At LandWISE 2018, Mark and University of Auckland colleague Kevin Wang will talk about maintaining data quality in field sensor networks – those much talked about hundreds, thousands and many thousands of gadgets that are going to be sending massive amounts of data from our farms and orchards through the Internet of Things (IoT).
Sensors and the Internet of Things (IoT) offer timely decision making around disease modelling, spray-application, irrigation control and frost-fighting.
Mark says, “If we are going to make decisions on the basis of data, an important question is: ‘How good are the data?’ This question need to be answered in a reliable and timely manner so that the correct decisions around crop management and sensor servicing can be made, and that the chance of bad decisions are less likely to occur. Our experience shows that as the cost of the sensors comes down, the cost of managing the sensor network and keeping it calibrated goes up.”
We are delighted that 
Our conference delegates are well supported by our meal sponsors and trade displays. In addition, Apatu Farms sponsor high school students to attend, and McCain Foods and Heinz-Wattie’s are sponsoring keynote 
Metris