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ESGreenTool – A Digital Sustainability Solution for Danish Agriculture
Denmark
North temperate zone
Benefits of the practice
- Calculation of current carbon footprint (CO₂ equivalents) for entire farm, in all production systems
- Farmers get a prompt overview of measures for reducing C emissions.
- Calculation of C footprint at product level.
Production system(s)
Thematic Area(s)
The ESGreen Tool is a digital application developed in Denmark to assist farmers in calculating and managing the carbon footprint of their agricultural operations. Introduced in 2022, it serves as the country’s first software capable of assessing a farm’s greenhouse gas emissions and exploring potential reduction strategies. The calculation methods behind the tool are aligned with the guidelines of IPCC 2006 as the national inventory report at farm level, and the guidelines of PEF for the calculations at product level.
Key Features:
⦁ Comprehensive emission assessment: The tool evaluates emissions from various farm activities, including livestock digestion, manure management, crop residue decomposition, energy consumption, and the import of resources like feed and animals.
⦁ Scenario analysis: Farmers can model different scenarios to understand the impact of potential changes in practices, such as adjustments in feed composition, fertilizer application, or the adoption of new technologies, on their overall emissions.
⦁ Data integration: ESGreenTool integrates with existing agricultural databases, allowing for automatic data transfer and reducing manual input. This integration ensures that calculations are based on accurate and up-to-date information, specifically concerning the farm.
⦁ Product-level footprint: In its advanced version, ESGreenTool Climate 2, the application enables farmers to calculate the climate impact per unit of product, such as per kilogram of eggs, providing detailed insights into the emissions associated with specific outputs.
ESGreen Tool er en digital applikation, der er udviklet i Danmark til at hjælpe landmænd med at beregne og styre deres landbrugs CO2-fodaftryk. Det blev introduceret i 2022 og er landets første software, der er i stand til at vurdere en gårds udledning af drivhusgasser og udforske potentielle reduktionsstrategier. Beregningsmetoderne bag værktøjet er i overensstemmelse med retningslinjerne fra IPCC 2006 for den nationale opgørelsesrapport på bedriftsniveau og retningslinjerne fra PEF for beregningerne på produktniveau.
Vigtige funktioner:
⦁ Omfattende emissionsvurdering: Værktøjet evaluerer udledninger fra forskellige landbrugsaktiviteter, herunder husdyrs fordøjelse, gødningshåndtering, nedbrydning af afgrøderester, energiforbrug og import af ressourcer som foder og dyr.
⦁ Scenarieanalyse: Landmænd kan modellere forskellige scenarier for at forstå virkningen af potentielle ændringer i praksis, såsom justeringer i fodersammensætning, gødningsanvendelse eller indførelse af nye teknologier, på deres samlede udledninger.
⦁ Integration af data: ESGreen Tool integreres med eksisterende landbrugsdatabaser, hvilket giver mulighed for automatisk dataoverførsel og reducerer manuelt input. Denne integration sikrer, at beregningerne er baseret på nøjagtige og opdaterede oplysninger om gården.
⦁ Fodaftryk på produktniveau: I sin avancerede version, ESGreen Tool Climate 2, gør applikationen det muligt for landmænd at beregne klimapåvirkningen pr. produktenhed, f.eks. pr. kg æg, hvilket giver detaljeret indsigt i de udledninger, der er forbundet med specifikke output.
The ESGreenTool, developed by SEGES Innovation and Innovation center fororganic farming, is a digital platform to calculate emission sources as part ofthe Environmental, Social and Governance (ESG) reporting. The tool uses thefarm as the system being assessed and it calculates the three most important greenhouse gases for agriculture: methane (CH₄), nitrous oxide(N₂O), and carbon dioxide (CO₂), according to the IPCC guidelines (2006).
The results are given as emissions in tons CO₂eq per year, per hectare andper kilogram of product. In addition, a relative carbon balance is calculated,which shows how much carbon is estimated to be stored on the farms land.
Part of the data is collected directly from mandatory farm registration datato the Danish government.
Calculated emission sources:
• Enteric fermentation/digestion
• Manure in barn and stock
• Manure distributed to the fields
• Turnover of crop residues
• Nitrate leaching
• Energy consumption and production of green energy
• Import of resources such as feed, straw, animals
• Carbon sequestration balance in soil
ESGreenTool is made up of two products:
1. ESGreenTool Climate, which allows farmers to calculate the climateimpact of their agricultural business (Climate 1) and the individualproduct footprint of the crops, and animals, using farm specific data(Climate 2). This enables farmers to calculate how potential changesin, for example, feed, fertilizer management, or new technology, willimpact the farm’s carbon footprint or the specific product footprintfor each unit produced. In that way, the tool supports the farmer indeveloping a concrete plan to reduce the farm’s greenhouse gasemissions. Currently, ESGreenTool is a crucial tool, since Danish government has decided to reduce greenhouse gas emissions from agricultural sector by 55-65 percent by 2030.
2. ESGreenTool Report provides a setting for farmers to document theirefforts in the areas of environment, governance, and social aspects. Itis a template developed for agriculture, with data points relevant tothe farming business. It is easy to select and customize 100+ datapoints based on relevant matters for the individual farm (e.g., greenhouse gas emissions, working conditions, biodiversity, governance,animal welfare etc.). When the template is completed, farmers caneasily share ESG data with their financial partners or relevant companies in their value chain, and they can customize the final report according to their demand for ESG data. The output is in pdf format atfarm and product level.
ADDITIONAL INFORMATION
While the ESGreenTool offers valuable insights into sustainability and climate impact on farms, there are some potential downsides:
1. Farmers need to input detailed information about their operations,which can be time-consuming and require a learning curve.
2. The tool integrates with Mark Online, which may limit flexibility forfarms that do not already use SEGES systems.
3. The tool has a license fee and depending on the pricing model,smaller farms may find this a limiting factor.
4. If farm data is incomplete or incorrect, the tool’s sustainability assessments and CO₂ calculations may not provide a fully accuratepicture.
5. As it is developed in Denmark, some of its methodologies or assumptions may not be directly applicable to farms in other countries with different regulations or climatic regions.
Soil Fertility Management with Innovative Soil Scanner Technology
Hungary
Continental
Benefits of the practice
- Fast, affordable soil testing with practical results
- Precision nutrient management via pH, organic matter, texture data
- Optimized input use for sustainability and lower environmental impact
Production system(s)
Thematic Area(s)
The Soil Scanner is an innovative tool that uses light reflection-based analysis to analyze the soil’s chemical and physical properties via a “dry” method. This offers a faster and more convenient alternative to traditional “wet” laboratory techniques. The scanner measures soil pH, organic matter content (humus), soil texture (clay content), and major macronutrients (N, P, K).
⦁ It categorizes soil pH (H2O and KCl) to ensure optimal conditions for crop production.
⦁ Provides clay content as a percentage, indicating soil texture and water retention capacity.
⦁ Measures organic carbon content, allowing for precise estimation of humus levels.
This tool is especially useful for farmers needing rapid decisions on nutrient management and soil sustainability while reducing environmental impact. The practical use of the Soil Scanner involves several key steps. The farmer or advisor takes the soil measurement, and the advisor then interprets the results and integrates them into farm decision-making. Researchers may assist in data analysis for more refined soil management recommendations. Based on the data, a time- and location-specific nutrient management plan is developed, and the farmer implements the recommended soil treatment plan.
The CODECS annual workshop at Széchenyi István University on November 21, 2024, brought together 22 participants to explore minimum tillage, precision farming, soil testing, and agro-digitalization. Key benefits of digital soil scanners include improved farm management, reduced input costs, better financial predictability, and environmental gains like lower emissions and enhanced biodiversity. Challenges include high investment costs, limited advisor support, and a need for more vocational training and youth involvement in agriculture.
A Talajszkenner egy innovatív eszköz, amely fényvisszaverődés-alapú elemzéssel, „száraz” módszerrel elemzi a talaj kémiai és fizikai jellemzőit. Ez gyorsabb és kényelmesebb alternatívát kínál a hagyományos „nedves” laboratóriumi módszerekhez képest. A szkenner a talaj pH-értékét, szervesanyag-tartalmát (humusz), kötöttségét és fő makroelemek (N, P, K) szintjét méri.
⦁ A talaj pH-ját (H2O és KCl) a megfelelő kémhatás biztosítására osztályozza, segítve az optimális növénytermesztést.
⦁ Az agyagtartalom %-os megadása alapján a talaj kötöttségére és vízmegtartó képességére vonatkozóan ad információt.
⦁ A szerves C-tartalom mérése révén a humusztartalom pontos becslését teszi lehetővé.
Az eszköz különösen hasznos azoknak a gazdálkodóknak, akik gyorsan szeretnének döntéseket hozni a tápanyag-utánpótlásról és talajmenedzsmentről, minimalizálva a környezetterhelést. A talajszkenner gyakorlati használata több kulcsfontosságú lépést foglal magában. A gazdálkodó vagy a tanácsadó elvégzi a talajmérést, majd a tanácsadó értelmezi az eredményeket, és beépíti azokat a mezőgazdasági döntéshozatalba. A kutatók segíthetnek az adatok elemzésében a finomabb talajgazdálkodási ajánlások érdekében. Az adatok alapján idő- és helyspecifikus tápanyag-gazdálkodási tervet dolgoznak ki, és a gazdálkodó végrehajtja az ajánlott talajkezelési tervet.
A Széchenyi István Egyetemen 2024. november 21-én tartott CODECS éves workshopon 22 résztvevővel a minimális talajművelés, a precíziós gazdálkodás, a talajvizsgálat és az agrárdigitalizáció témakörét járták körül. A digitális talajszkennerek legfontosabb előnyei közé tartozik a jobb gazdálkodás, a csökkentett inputköltségek, a jobb pénzügyi kiszámíthatóság, valamint a környezeti előnyök, például az alacsonyabb kibocsátás és a fokozott biológiai sokféleség. A kihívások közé tartoznak a magas beruházási költségek, a korlátozott tanácsadói támogatás, valamint a szakképzés és a fiatalok mezőgazdaságba való bevonásának szükségessége.
Description of a Methodology for Validating GHG Assessment Tools at Farm Level
Europe
All Zones
Benefits of the practice
- GHG diagnostic tools identification
- Carbon tool usability assessment
- Impact of practices on carbon sensitivity
Production system(s)
Thematic Area(s)
The Climate Farm Demo project aims to create a unique pan-European network of Pilot Demo Farmers. Its overall objective is to accelerate the adoption of Climate Smart Farming practices and solutions by farmers. To support farmers in this transition, they first need insight into current GHG emissions and carbon removals on their farms to create action plans for climate change mitigation and adaptation.
Over the last decade, a range of farm-level GHG assessment tools have been developed for different farming systems. The main objective of these tools is to help farmers and advisors determine their baseline GHG emissions and assist in developing action plans. The selected tools should be of sufficient quality and comply with a certain scientific standard.
To evaluate the tools, we used a stepwise approach: 1) define evaluation criteria, 2) collect tool information, 3) perform assessment, and 4) provide information sheets on the selected tools.
The following information was collected to evaluate the tools:
General information
- Covered production systems
- Available languages
- Scope of the tool
- Cost of the tool
Features for development of an action plan
- Description of farms
- Type of GHG emissions and carbon storage included
- Benchmark possibility
- Other environmental impacts
- List of mitigation options
- Economic impact results
- Action plan simulation possibility
Support for advisors
- Training possibilities (cost, format, support)
- Documentation (user guide, methodology)
- Data handling
Sensitivity to mitigation practices
- Enteric fermentation
- Manure management
- Nitrogen management in the field
- Energy consumption
- Fertilizer emission factors (related to production emissions)
- Feed emission factors
- Carbon storage
Based on the assessment, the project selected 18 tools that can be used by farmers and advisors in the project, which cover the major agricultural production systems. These tools are compiled on the project website
Le projet Climate Farm Demo (CFD) vise à créer un réseau européen d’agriculteurs pilotes. Son objectif global est d’accélérer l’adoption par les agriculteurs de pratiques face au changement climatique. Pour les soutenir dans cette transition, il leur faut d’abord connaître les émissions de gaz à effet de serre et le stockage de carbone de leur exploitation afin d’élaborer des plans d’action d’atténuation du changement climatique et l’adaptation à ses effets.
De nombreux outils d’évaluation des GES à l’échelle de l’exploitation existent pour les différents systèmes agricoles. Les outils sélectionnés doivent être d’une qualité suffisante et répondre à certaines normes scientifiques. Pour évaluer les outils, nous avons utilisé une approche par étapes : 1) définition des critères d’évaluation, 2) collecte d’informations sur les outils, 3) réalisation de l’évaluation et 4) fourniture de fiches d’information sur les outils sélectionnés. Les informations suivantes ont été collectées pour évaluer les outils :
Informations générales
- Systèmes de production couverts
- Langues disponibles
- Périmètre de l’évaluation de l’outil
- Coût d’utilisation
Caractéristiques pour l’élaboration d’un plan d’action
- Description de l’exploitation
- Unités fonctionnelles émissions de GES et stockage
- Comparaison des résultats des références
- Autres impacts environnementaux
- Liste de leviers d’atténuation
- Lien avec les résultats économique
- Possibilité de simuler les plans d’action
Support aux conseillers
- Modalités de formation
- Documentation
- Export / Import de données
Sensibilité aux pratiques
- Fermentation entérique
- Gestion des effluents
- Gestion de l’azote sur les surfaces
- Consommation d’énergie
- Facteurs d’émissions des engrais
- Facteurs d’émissions des aliments
- Stockage de carbone
Sur la base de cette évaluation, le projet a sélectionné 18 outils qui peuvent être utilisés par les agriculteurs et les conseillers dans le cadre du projet Climate Farm Demo, et qui couvrent les principaux systèmes de production agricole. Ces outils sont compilés sur le site du projet : https://climatefarmdemo.eu/cfd/en/#/resources
The Climate Farm Demo (CFD) project aims to create a unique panEuropean network of Pilot Demo Farmers covering 27 countries and all pedo-climatic areas.
Its overall objective is to accelerate the adoption of Climate Smart Farming practices and solutions by farmers with a view to adapting agricultural production systems to climate change and to achieving a carbon neutral agricultural sector by 2050.
To support farmers in this transition they first need insight in the current GHG emissions and carbon removals on their farms in order to create action plans for climate change mitigation and adaptation.
Over the last decade a range of farm level GHG assessment tools have been developed for different farming systems.
Most tools were developed to calculate the carbon footprint of crops or livestock products, which is increasingly being demanded by the food industry.
Other tools were developed as farm level tools to provide insights in nutrient flows and emissions on the farm.
Some tools are more appropriate as monitoring tools, whereas others have possibilities to also perform simulations with alternative management, which can be used for creating action plans.
Also, geographically there is a large variation, where countries in Western Europe have multiple tools available, while in Central-eastern European countries often no tools are yet developed.
The main objective for the use of these tools is to help farmers and advisors to determine their baseline GHG emissions and to assist in the development of the action plans.
A comparison of the GHG performance of farms among countries is not the focus of the project.
Therefore, the project decided not to use only a single tool for all farms but instead allow farmers and advisors to work with the tools they already might use in their country.
However, the selected tools should be of sufficient quality and comply with to a certain scientific standard.
Here are the steps followed, and the criteria observed to validate the tools.
First screening:
Only tools meeting the following criteria can be considered for further evaluation:
- Tool that assesses a farm’s GHG emissions covering scopes 1, 2 and 3
- Sufficiently advanced in their development so that the tool can be used directly by farmers/advisors for the development of the action plans and
- Sufficient documentation material should be available to perform the evaluation.
Next, here is the important information to observe to evaluate the tools: Information on features that are relevant for the development of an action plan for the farms.
An important aspect is to what extent the tools are sensitive to certain mitigation practices, as the practices that will be implemented on those farms should ideally be reflected in the following GHG assessment.
Below the full list of topics to be considered:
• General information
o Covered production systems o Available languages
o Scope of the tool o Cost of the tool
• Features for development of an action plan
o Description of farm
o Type of GHG emissions and carbon storage included
o Benchmark possibility
o Other environmental impacts o List of mitigation options
o Economic impact results o Action plan simulation possibility
• Support for advisors
o Training possibilities (cost, format, support)
o Documentation (user guide, methodology documentation)
o Data handling
• Sensitivity to mitigation practices
o Enteric fermentation
o Manure management
o Nitrogen management in the field
o Energy consumption
o Fertilizer emission factors (related to production emission)
o Feed emission factors
o Carbon storage
Based on the assessment, the project selected 18 tools that can be used by farmers and advisors in the Climate Farm Demo project, which cover the major agricultural production systems. Here is the list of selected tools: Agnav, Agrecalc, Agrösfar, Biocode, Bovid CO2, CAP’2ER, Carbon F&L, Convis, Cool Farm Tool, DECiDE, ES Green Tool, Farm Carbon Calculator, Geep, GES&VIT, Klimrek, KLIR, Kringloopwijzer (ANCA), TEKla.