TY  - CONF
AU  - Notz, Inka
AU  - Topp, Cairistiona F.E.
AU  - Schuler, Johannes
AU  - Iantcheva, Anelia
AU  - Recknagel, Jürgen
AU  - Rittler, Leopold
AU  - Vasiljević, Marjana
AU  - Watson, Christine A.
AU  - Reckling, Moritz
PY  - 2023
UR  - http://fiver.ifvcns.rs/handle/123456789/3660
AB  - Legume‐supported cropping systems affect environmental, production and economic impacts. In Europe, legume production is still marginal with grain legumes covering less than 3% of arable land. A transition towards legume‐supported systems could contribute to a higher level of protein self‐sufficiency and lower environmental impacts of agriculture. Suitable approaches for designing legume‐supported cropping systems are required that go beyond the production of prescriptive solutions. We implemented an interactive research process with scientists and advisors in 16 study areas in nine European countries to understand, explore and develop cropping systems with a focus on soybean and other grain legumes. The results of 24 rotation comparisons showed that grain legume integration decreased N fertilizer use and nitrous oxide emissions (N2O) in more than 90% of the comparisons with reductions ranging from 6‐142 kg N ha‐1 and 1‐6 kg N2O ha‐1, respectively. In over 75% of the rotation comparisons, cropping systems with legumes had lower nitrate leaching.
PB  - Vienna : University of Natural Resources and Life Sciences (BOKU)
C3  - Abstracts, 11th World Soybean Research Conference (WSRC 11), Soybean Research for Sustainable Development, Vienna, 18-23 June 2023
T1  - The role of soybean for re‐designing European cropping systems
EP  - 269
SP  - 269
DO  - 10.5281/zenodo.7974681
ER  - 

@conference{
author = "Notz, Inka and Topp, Cairistiona F.E. and Schuler, Johannes and Iantcheva, Anelia and Recknagel, Jürgen and Rittler, Leopold and Vasiljević, Marjana and Watson, Christine A. and Reckling, Moritz",
year = "2023",
abstract = "Legume‐supported cropping systems affect environmental, production and economic impacts. In Europe, legume production is still marginal with grain legumes covering less than 3% of arable land. A transition towards legume‐supported systems could contribute to a higher level of protein self‐sufficiency and lower environmental impacts of agriculture. Suitable approaches for designing legume‐supported cropping systems are required that go beyond the production of prescriptive solutions. We implemented an interactive research process with scientists and advisors in 16 study areas in nine European countries to understand, explore and develop cropping systems with a focus on soybean and other grain legumes. The results of 24 rotation comparisons showed that grain legume integration decreased N fertilizer use and nitrous oxide emissions (N2O) in more than 90% of the comparisons with reductions ranging from 6‐142 kg N ha‐1 and 1‐6 kg N2O ha‐1, respectively. In over 75% of the rotation comparisons, cropping systems with legumes had lower nitrate leaching.",
publisher = "Vienna : University of Natural Resources and Life Sciences (BOKU)",
journal = "Abstracts, 11th World Soybean Research Conference (WSRC 11), Soybean Research for Sustainable Development, Vienna, 18-23 June 2023",
title = "The role of soybean for re‐designing European cropping systems",
pages = "269-269",
doi = "10.5281/zenodo.7974681"
}

Notz, I., Topp, C. F.E., Schuler, J., Iantcheva, A., Recknagel, J., Rittler, L., Vasiljević, M., Watson, C. A.,& Reckling, M.. (2023). The role of soybean for re‐designing European cropping systems. in Abstracts, 11th World Soybean Research Conference (WSRC 11), Soybean Research for Sustainable Development, Vienna, 18-23 June 2023
Vienna : University of Natural Resources and Life Sciences (BOKU)., 269-269.
https://doi.org/10.5281/zenodo.7974681

Notz I, Topp CF, Schuler J, Iantcheva A, Recknagel J, Rittler L, Vasiljević M, Watson CA, Reckling M. The role of soybean for re‐designing European cropping systems. in Abstracts, 11th World Soybean Research Conference (WSRC 11), Soybean Research for Sustainable Development, Vienna, 18-23 June 2023. 2023;:269-269.
doi:10.5281/zenodo.7974681 .

Notz, Inka, Topp, Cairistiona F.E., Schuler, Johannes, Iantcheva, Anelia, Recknagel, Jürgen, Rittler, Leopold, Vasiljević, Marjana, Watson, Christine A., Reckling, Moritz, "The role of soybean for re‐designing European cropping systems" in Abstracts, 11th World Soybean Research Conference (WSRC 11), Soybean Research for Sustainable Development, Vienna, 18-23 June 2023 (2023):269-269,
https://doi.org/10.5281/zenodo.7974681 . .

TY  - JOUR
AU  - Notz, Inka
AU  - Topp, Cairistiona F. E.
AU  - Schuler, Johannes
AU  - Alves, Sheila
AU  - Gallardo, Leonardo Amthauer
AU  - Dauber, Jens
AU  - Haase, Thorsten
AU  - Hargreaves, Paul R.
AU  - Hennessy, Michael
AU  - Iantcheva, Anelia
AU  - Jeanneret, Philippe
AU  - Kay, Sonja
AU  - Recknagel, Jürgen
AU  - Rittler, Leopold
AU  - Vasiljević, Marjana
AU  - Watson, Christine A.
AU  - Reckling, Moritz
PY  - 2023
UR  - http://fiver.ifvcns.rs/handle/123456789/3283
AB  - Legume-supported cropping systems afect environmental, production, and economic impacts. In Europe, legume production is still marginal with grain legumes covering less than 3% of arable land. A transition towards legume-supported systems could contribute to a higher level of protein self-sufciency and lower environmental impacts of agriculture. Suitable approaches for designing legume-supported cropping systems are required that go beyond the production of prescriptive solutions. We applied the DEED framework with scientists and advisors in 17 study areas in nine European countries, enabling us to describe, explain, explore, and redesign cropping systems. The results of 31 rotation comparisons showed that legume integration decreased N fertilizer use and nitrous oxide emissions (N2O) in more than 90% of the comparisons with reductions ranging from 6 to 142 kg N ha−1 and from 1 to 6 kg N2O ha−1, respectively. In over 75% of the 24 arable cropping system comparisons, rotations with legumes had lower nitrate leaching and higher protein yield per hectare. The assessment of above-ground biodiversity showed no considerable diference between crop rotations with and without legumes in most comparisons. Energy yields were lower in legume-supported systems in more than 90% of all comparisons. Feasibility and adaptation needs of legume systems were discussed in joint workshops and economic criteria were highlighted as particularly important, refecting fndings from the rotation comparisons in which 63% of the arable systems with legumes had lower standard gross margins. The DEED framework enabled us to keep close contact with the engaged research-farmer networks. Here, we demonstrate that redesigning legume-supported cropping systems through a process of close stakeholder interactions provides benefts compared to traditional methods and that a large-scale application in diverse study areas is feasible and needed to support the transition to legume-supported farming in Europe.
PB  - Springer
T2  - Agronomy for Sustainable Development
T1  - Transition to legume‑supported farming in Europe through redesigning cropping systems
SP  - 12
VL  - 43
DO  - 10.1007/s13593-022-00861-w
ER  - 

@article{
author = "Notz, Inka and Topp, Cairistiona F. E. and Schuler, Johannes and Alves, Sheila and Gallardo, Leonardo Amthauer and Dauber, Jens and Haase, Thorsten and Hargreaves, Paul R. and Hennessy, Michael and Iantcheva, Anelia and Jeanneret, Philippe and Kay, Sonja and Recknagel, Jürgen and Rittler, Leopold and Vasiljević, Marjana and Watson, Christine A. and Reckling, Moritz",
year = "2023",
abstract = "Legume-supported cropping systems afect environmental, production, and economic impacts. In Europe, legume production is still marginal with grain legumes covering less than 3% of arable land. A transition towards legume-supported systems could contribute to a higher level of protein self-sufciency and lower environmental impacts of agriculture. Suitable approaches for designing legume-supported cropping systems are required that go beyond the production of prescriptive solutions. We applied the DEED framework with scientists and advisors in 17 study areas in nine European countries, enabling us to describe, explain, explore, and redesign cropping systems. The results of 31 rotation comparisons showed that legume integration decreased N fertilizer use and nitrous oxide emissions (N2O) in more than 90% of the comparisons with reductions ranging from 6 to 142 kg N ha−1 and from 1 to 6 kg N2O ha−1, respectively. In over 75% of the 24 arable cropping system comparisons, rotations with legumes had lower nitrate leaching and higher protein yield per hectare. The assessment of above-ground biodiversity showed no considerable diference between crop rotations with and without legumes in most comparisons. Energy yields were lower in legume-supported systems in more than 90% of all comparisons. Feasibility and adaptation needs of legume systems were discussed in joint workshops and economic criteria were highlighted as particularly important, refecting fndings from the rotation comparisons in which 63% of the arable systems with legumes had lower standard gross margins. The DEED framework enabled us to keep close contact with the engaged research-farmer networks. Here, we demonstrate that redesigning legume-supported cropping systems through a process of close stakeholder interactions provides benefts compared to traditional methods and that a large-scale application in diverse study areas is feasible and needed to support the transition to legume-supported farming in Europe.",
publisher = "Springer",
journal = "Agronomy for Sustainable Development",
title = "Transition to legume‑supported farming in Europe through redesigning cropping systems",
pages = "12",
volume = "43",
doi = "10.1007/s13593-022-00861-w"
}

Notz, I., Topp, C. F. E., Schuler, J., Alves, S., Gallardo, L. A., Dauber, J., Haase, T., Hargreaves, P. R., Hennessy, M., Iantcheva, A., Jeanneret, P., Kay, S., Recknagel, J., Rittler, L., Vasiljević, M., Watson, C. A.,& Reckling, M.. (2023). Transition to legume‑supported farming in Europe through redesigning cropping systems. in Agronomy for Sustainable Development
Springer., 43, 12.
https://doi.org/10.1007/s13593-022-00861-w

Notz I, Topp CFE, Schuler J, Alves S, Gallardo LA, Dauber J, Haase T, Hargreaves PR, Hennessy M, Iantcheva A, Jeanneret P, Kay S, Recknagel J, Rittler L, Vasiljević M, Watson CA, Reckling M. Transition to legume‑supported farming in Europe through redesigning cropping systems. in Agronomy for Sustainable Development. 2023;43:12.
doi:10.1007/s13593-022-00861-w .

Notz, Inka, Topp, Cairistiona F. E., Schuler, Johannes, Alves, Sheila, Gallardo, Leonardo Amthauer, Dauber, Jens, Haase, Thorsten, Hargreaves, Paul R., Hennessy, Michael, Iantcheva, Anelia, Jeanneret, Philippe, Kay, Sonja, Recknagel, Jürgen, Rittler, Leopold, Vasiljević, Marjana, Watson, Christine A., Reckling, Moritz, "Transition to legume‑supported farming in Europe through redesigning cropping systems" in Agronomy for Sustainable Development, 43 (2023):12,
https://doi.org/10.1007/s13593-022-00861-w . .

TY  - BOOK
AU  - Milovac, Željko
AU  - Petrović, Kristina
AU  - Balešević-Tubić, Svetlana
AU  - Recknagel, Jürgen
AU  - Vasiljević, Marjana
PY  - 2021
UR  - http://fiver.ifvcns.rs/handle/123456789/2435
AB  - Pests are generally not a problem in European soybean crops. Spider mites account for a large proportion of what pest damage there is. The risk of damage is high during dry and hot conditions in summer. Several mite species can damage soybean plants, but two are more harmful than others: the spider mite (Tetranychus atlanticus) and the two-spotted spider mite (Tetranychus urticae). There are no acaricides available for use in soybean in the European Union (EU) and chemical control is not an option in the EU or for crops grown to EU standards elsewhere.
PB  - Novi Sad : Institute of Field and Vegetable Crops
T1  - Mites in soybean production
DO  - 10.5281/zenodo.5060690
ER  - 

@book{
author = "Milovac, Željko and Petrović, Kristina and Balešević-Tubić, Svetlana and Recknagel, Jürgen and Vasiljević, Marjana",
year = "2021",
abstract = "Pests are generally not a problem in European soybean crops. Spider mites account for a large proportion of what pest damage there is. The risk of damage is high during dry and hot conditions in summer. Several mite species can damage soybean plants, but two are more harmful than others: the spider mite (Tetranychus atlanticus) and the two-spotted spider mite (Tetranychus urticae). There are no acaricides available for use in soybean in the European Union (EU) and chemical control is not an option in the EU or for crops grown to EU standards elsewhere.",
publisher = "Novi Sad : Institute of Field and Vegetable Crops",
title = "Mites in soybean production",
doi = "10.5281/zenodo.5060690"
}

Milovac, Ž., Petrović, K., Balešević-Tubić, S., Recknagel, J.,& Vasiljević, M.. (2021). Mites in soybean production. 
Novi Sad : Institute of Field and Vegetable Crops..
https://doi.org/10.5281/zenodo.5060690

Milovac Ž, Petrović K, Balešević-Tubić S, Recknagel J, Vasiljević M. Mites in soybean production. 2021;.
doi:10.5281/zenodo.5060690 .

Milovac, Željko, Petrović, Kristina, Balešević-Tubić, Svetlana, Recknagel, Jürgen, Vasiljević, Marjana, "Mites in soybean production" (2021),
https://doi.org/10.5281/zenodo.5060690 . .