Demonstration of Clemens GmbH mechanical weeding technology for vineyards at NIAB EMR’s R&D vineyard

Weeding technology in action at Fruit Focus in the NIAB EMR R&D vineyard. CLEMENS Technologies is providing a range of mechanical weeding technologies for vineyards and orchards, with the equipment being used in research conducted by NIAB EMR in the IWM PRAISE project.

Demonstration of Clemens GmbH mechanical weeding technology for vineyards at NIAB EMR's R&D vineyard.

Weeding technology in action at Fruit Focus in the NIAB EMR R&D vineyard. CLEMENS Technologies is providing a range of mechanical weeding technologies for vineyards and orchards, with the equipment being used in research conducted by NIAB EMR.

Posted by NIAB on Wednesday, August 1, 2018

Clemens and NIAB EMR officially launched their collaboration @ Fruit Focus 2018

Fruit Focus, the leading technical event for the fruit industry, took place on 25 July 2018 at NIAB EMR, East Malling, Kent. Amongst the ever popular NIAB EMR research tours, Dr Julien Lecourt showcased new additions to the R&D vineyard including trellis system accessories, frost protection and fertigation systems, and the planting of an extension for weed control research as part of the IWM PRAISE European Union Horizon 2020 project. It was announced that German company Clemens GmbH (CLEMENS Technologies) has also joined the project, providing a range of mechanical weeding technologies for vineyards and orchards, with the equipment being used in the research conducted by the team at NIAB EMR.

Image: Johannes Krütten (Clemens GmbH) and Dr Julien Lecourt (NIAB EMR). All credits NIAB EMR

Fruit Focus 2018 – Cluster meeting – IWM PRAISE

The leading fruit industry event fruit focus 2018 has taken place at East Malling, Kent. It comprised tours of the vineyard, led by Dr Julien Lecourt who focused his talk on the IWM PRAISE project.

Julien presented the aim of the project and the experimental plan we are going to follow in the next years. The talk has been followed by demonstration of mechanical weeders by Clemens GmbH. The 2018 Chardonnay planting, dedicated to the studies for the IWM PRAISE project has been presented and Julien discussed the importance of weed management in young vineyards and orchards. A video showing the different weeding technologies -in operation- used in the project will be uploaded on this webpage in the next weeks.

Tours and demonstrations have caught the interest of the public -including fruit growers and vineyard managers- with the promise to discuss the first results at the next Fruit Focus. “Rendez-vous” in summer 2019!

The IWM PRAISE sign in the vineyard

Pinot noir rows after row cultivation with the Clemens Radius SL plus

The Clemens SL Radius plus

Two inter-row management techniques – cultivated vs cover-cropped

Dr Julien Lecourt giving his talk in one of the tours at Fruit Focus 2018


Save the date! Fruit Focus 2018 on the 25th of July

Fruit Focus is one of the major events for the UK fruit industry. Taking place at East Malling, Kent, the event will include two tours of the NIAB EMR research vineyard with a special focus on the IWM PRAISE project. The tour will include the demonstration of weeding technologies and the presentation of the various experiments taking place in the vineyard for the project.

For more information about Fruit Focus:

IWMPRAISE in the UK – how are we going to work?

The project spans cropping systems and nations across the EU and has 10 work packages. In the UK we are participating in ‘Work Package 3’ which is developing, defining and promoting the adoption of IWM in narrow row crops and rotations.

We are going to partner field trials on specific aspects of integrated weed management to help build the knowledge base around IWM approaches with a number of larger scale on-farm demonstrations following the adoption of IWM in a conservation agriculture setting.

For the 2017-18 season we are carrying out these detailed field trials.

The implications of no-till drilling for grass-weed management in autumn sown break crops;
Management of break crops is becoming increasing important as part of a grass-weed management strategy across the rotation as resistance effects the level of control we can reliably achieve in cereal crops. We have some very effective herbicides in the key winter break crops (Field Beans & Oilseed Rape) but we can we use no-till establishment techniques to maximise their effectiveness and at the same time reduce the abundance of weeds that soil movement stimulates to emerge in the crop.

Cultivations post-harvest and over-winter to optimise the effectiveness of spring cropping against grass-weeds.
Spring cropping has become a key element in management strategies for herbicide resistant grass weeds. What post-harvest and overwinter management can be adopted to optimise the effectiveness of spring cropping at reducing grass weeds? How does a true conservation agriculture no-til strategy (with no soil movement post-harvest and over-winter) impact on the effectiveness of spring crops for grass weed management; does the lack of soil movement reduce seed losses or can it be part of the solution?

The potential for companion cropping in spring sown field beans
In the past perhaps viewed as slightly left-field – in crops where there are a good range of effective herbicides and where the crop itself can effectively suppress weeds it might be hard to see how companion cropping could do anything other than make things more complicated. BUT these options of companion cropping or inter-cropping could be an interesting approach in some situations; helping to make certain spring crops where herbicides are limited and crop competition is poor more effective at managing weeds.

Inter-row guided mechanical weeding
A traditional management option for crops like sugar beet; modern technology (from Garford Farm Machinery) means that the accuracy and potential work-rate has been increased dramatically and the row width required has shrunk from the old steerage-hoe, while at the same time the option of using selective herbicides on the crop row and mechanical weeding in the inter-row space is now available. We will evaluate the weed control in practice and explore if this approach cost effective on a whole field scale.

Mechanical weeding strategies for the UK vineyards and orchards
In the UK there is also an activity in Orchards and Vineyards led in the UK by NIAB EMR (Work Package 6). Our work will combine the latest imaging technologies with mechanical weeding technics to optimise IWM and reduce the use of herbicides as the only solution for weed control.

Long-term demonstrations;
Details of these locations will be publicised during 2018 as will events to demonstrate and explain progress of the project. Our aim is to ensure a good distribution around the country to demonstrate IWM in practice under a range of environmental conditions.

A linked work package (Work Package 2) which spans the partners across Europe is developing and defining innovative non-chemical approaches to IWM.


Welcome to IWMPRAISE in the UK – what are we trying to achieve

Welcome to IWMPRAISE in the UK. We are part of a much larger EU funded project ( with partners from around Europe.

In the UK we want to support the development and adoption of integrated weed management which works for UK growers in practise. There’s a great opportunity to draw on the expertise and experience of growers from around Europe within this project to help us in that goal.

We want to play a part in the development of a UK-centric conservation agriculture which works for growers in our conditions and under all our commercial and practical constraints. In  doing that we know we are not doing the work in isolation and we want to partner with and support other people who are active in this area (BASE-UK, No-till alliance and others)

The key partners in the UK are NIAB and Rothamsted Research but the project would not be possible without the support of  a range of companies in the UK (Garford Farm Machinery, Abacus Organic, Innovation for Agriculture, Sly Agri, Cotswold seeds, Courtyard partnership).