 Adoption of cover crops for climate change mitigation in the EUBert Smit,
Bas Janssens,
Wiepie Haagsma,
Wil Hennen,
Jose Luis Adrados and
Jonas Kathage
No JRC116730, JRC Research Reports from Joint Research Centre Abstract: In order to contribute to the EU's ambitions to reduce its greenhouse gas emissions by 2030, different technological and management options are being analysed. Within the agricultural sector, catch and cover crops (CCC) are considered a viable option to mitigate greenhouse gas emissions. CCC are crops grown for the protection of the agricultural land which would otherwise be bare against erosion and nutrient losses. They immobilise nitrogen such that it remains available in the soil after the harvest of the main crop for the next main crop. If managed correctly, catch and cover crops can enhance climate change mitigation through soil carbon sequestration (building up the soil organic carbon content of the soil) and reducing emissions from fertiliser production. In this report, we conduct a survey for different case study regions in Europe (Castilla y León in Spain; Sud – Muntenia in Romania; Centre in France; and Overijssel in the Netherlands) focusing on the mitigation and adoption potential. From the survey results we observe that CCC are mainly grown after wheat, barley, silage maize or sunflower, the most popular species being ryegrasses, mustards, clovers, vetch, oats, phacelia and rye. In most cases CCC are sown after the harvest of the main crop, after a seedbed preparation, and adopters generally do not apply irrigation, N-fertilisation (mineral or organic) or crop protection. The termination of these crops is in most cases by ploughing or by using herbicides (glyphosate). In Spain, the concept of CCC is not very well known. Common vetch was the most applied species, mostly after cereals but in some cases after sugar beet or potato. Part of the CCC was undersown. Irrigation and N-manure were often applied, but seedbed preparation, N-fertiliser and crop protection were not frequently mentioned. Half of the Spanish adopters did not harvest this crop and the other half harvested it for selling, for own use or for fodder. The majority of adopters used ploughing for termination of CCC. In France, unlike the other regions in the survey, a wide variety of CCC species was applied. Black oat (Avena strigosa), white mustard (Sinapis alba), common vetch (Vicia sativa) and Phacelia were most frequently mentioned, which were mostly sown after wheat and barley harvest. French farmers are in general well informed about catch and cover crops. While most farmers apply seedbed preparation, irrigation, N-fertilization and crop protection are not often applied. The large majority of French adopters did not harvest the CCC and terminated the crop through ploughing. Dutch respondents knew the CCC-concept, since most of them grew green maize on sandy soils as a part of their fodder production for their dairy herd. Thus, they had to comply with the Nitrates Directive to grow a CCC after the maize and they did that mostly after harvest. Half of them grew Italian or English ryegrass and the other half (cutting) rye. This practice led to a relatively long CCC-period on the field compared to the three other regions in the survey. Irrigation, N-fertilisation, N-manure and crop protection were not often applied, but all adopters applied seedbed preparation. Half of the CCC-growers terminated the crop through ploughing, a quarter through a different mechanical form and the others through herbicides. In Romania, not all farmers knew the concept of CCC-growing, although quite a share of the adopters did so as an obligation by the Romanian Agency for Payments and Intervention for Agriculture. Rapeseed and green peas were the most frequently applied CCC-species, after wheat or sunflower harvest and after a seedbed preparation. Like in the other regions, irrigation, N-fertilisation, N-manure and crop protection were not often applied. The majority of adopters did not harvest the crop and more than 80% of the adopters in Romania ploughed the CCC for termination. Farming activities related to the use of CCC take on average 3.4 hours per ha. The total cost of all inputs (seeds, fertiliser/manure, pesticides, water) and all operations (seedbed preparation, sowing, application of fertiliser/manure and plant protection, irrigation, fuel, harvest and termination, including contractors hired) is on average 144 €/ha. Adopters estimated that growing CCC reduces the fertiliser need of the following main crops by 6.6%, and increases yields of the following main crops by 4.2%. Most adopters grow CCC because of existing policies and most consider cultivation mandatory. Overall, agronomic reasons play a smaller role, and environmental motives are of little relevance to the adoption decision. The reasons why non-adopters do not grow CCC include a lack of benefits, high cost and labour requirements, lack of awareness, and unsuitable weather and crop rotations, among others. A majority of non-adopters indicate that they would start growing CCC if additional subsidies were provided. Estimated CCC adoption rates based on the share of farmers using CCC range from 12% in Castilla y León, 46% in Sud – Muntenia, 84% in Centre to 99% in Overijssel. However, most adopters grow CCC on only a small share of their arable land, with the exception of Overijssel. The estimated adoption rate based on the regional area potentially available for CCC cultivation (after cereals, protein and industrial crops) is well below 20% in the Spanish, Romanian and French regions and 90% in Overijssel. The adoption potential is combined with regionally differentiated estimates of carbon sequestration from CCC per hectare to calculate the total potential climate change mitigation from CCC in each of the case study regions. Keywords: crop; climate change; greenhouse gas emissions (search for similar items in EconPapers) Downloads: (external link) Related works: Export reference: BibTeX RIS (EndNote, ProCite, RefMan) HTML/Text Persistent link: https://EconPapers.repec.org/RePEc:ipt:iptwpa:jrc116730 Access Statistics for this paper More papers in JRC Research Reports from Joint Research Centre Contact information at EDIRC. |
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