Development of the breeding bird community of a silvoarable agroforestry system with short rotation coppice strips over a 16-year period

Modern silvoarable agroforestry systems (AFS) with short rotation coppice strips (CS) are considered as a potential measure to increase structural diversity in agricultural landscapes and to promote biodiversity while simultaneously producing arable crops and woody biomass. However, studies investigating the actual potential of these novel land use systems to promote biodiversity are scarce. We therefore investigated the importance of a silvoarable AFS with different CS variants as habitat for breeding birds on an experimental site in northern Germany, which was studied several times over a 16-year period since its establishment. In addition, the habitat function and quality of CS was compared with hedgerows. The results show that establishing CS on arable land creates additional habitats for shrub and tree breeding species and thus increases species numbers and territory densities. Tree harvest resulted in a decrease in species numbers and densities. However, since Aspen rows (for timber production) or native woody species were retained during harvesting in some CS, suitable nesting opportunities for some species remained. A sharp decline in Skylark territories was observed within the open land of the AFS, from nine breeding pairs in the year after establishment (2009) to only two breeding pairs each in 2022 and 2023. Compared to CS, hedgerows were more species-rich and had much higher territory densities. We conclude that the integration of CS into croplands can promote some species of woody habitats, especially if measures such as the integration of trees of different heights or native woody species and sectional harvesting are implemented. However, CS still clearly lag behind hedgerows in terms of their habitat quality. Furthermore, the establishment of CS may have negative effects on threatened open land species like the Skylark. The requirements of these species should therefore be considered when planning AFS. Establishing AFS with CS could especially be an option in cleared, intensively used agricultural landscapes, where CS could represent a trade-off between the promotion of birds and agricultural production

Insecticide drift from agricultural spraying into field margin habitats and its effects on non-target arthropods : residual toxicity, impact on populations, and recolonisation processes

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Best practice document for the coexistence of genetically modified potato with conventional and organic farming

The Technical Working Group (TWG) for Potato is the fourth one of the European Coexistence Bureau (ECoB) and is established for elaboration of the coexistence issues between genetically modified (GM) potato cultivation and non-GM potato and honey production in the EU. The present technical report analysed the possible sources for potential cross-pollination with GM potato and adventitious admixture of GM potato material such as seeds and pollen and presents consensually agreed by TWG for Potato best practices for coexistence. The terms of reference for this review are presented in Section 1. The scope of the Best Practice Document is coexistence in potato production in the EU. It includes the coexistence between GM potato cultivation and honey production. The ECoB TWG for Potato held two meetings in November 2015 and May 2016 and examined the state-of-the-art from scientific literature, research projects and empirical evidence provided by existing studies for segregation in potato production looking at the factors determining the cross-pollination rates in potato as well as other sources of admixture of GM material in conventional potato harvests and EU-produced honey. The review of this information (coming from a total of 155 references) is presented in a structured manner in Sections 4-6 of this document. Finally, the TWG for Potato reviewed the up to date approaches for the detection and identification of traces of GM potato material in non-GM potato harvests and honey (Section 7). The TWG for Potato of the ECoB, based on the analysis of the evidence summarised in this document submitted proposals for best management practices, which form the ground for the agreed consensus recommendations presented in Section 8, complemented by an ex-ante view about their economic impact (Section 9).JRC.D.4-Economics of Agricultur

Crop rotations with and without legumes: a review

Leguminosen sind im ökologischen Landbau aufgrund ihrer Fähigkeit zur Luftstickstofffixierung unverzichtbar für die Stickstoffversorgung der Ackerkulturen und die Proteinversorgung der Nutztiere. Im konventionellen Anbau bieten Leguminosen die Möglichkeit, die häufig getreideintensiven Fruchtfolgen aufzulockern. Eine der wichtigsten Wirkungen dieses Break-crop-Effekts ist das Durchbrechen des Lebenszyklus von fruchtartenspezifischen Pathogenen und der damit verbundenen Einsparung von Pflanzenschutzmitteln. Die vorliegende Übersichtsarbeit stellt den derzeitigen Stand des Wissens zu Fruchtfolgen mit und ohne Leguminosen zusammen. Dabei werden ackerbauliche, ökologische und ökonomische Wirkungen des Anbaus groß- und kleinkörnig Leguminosenarten als Haupt- oder Zwischenfrüchte bzw. Unter­saaten oder als Komponenten in Gemengen dar­gestellt und bewertet. Der Schwerpunkt liegt dabei auf relevanten Publikationen in wissenschaftlichen Journalen sowie Praxis- und Forschungsberichten der Jahre 2010 – 2020 die in Deutschland oder vergleichbaren klimatischen Bedingungen durchgeführt wurden. Abschließend wird daraus der notwendige Forschungsbedarf für die Themenbereiche Pflanzenbau (konventionell und ökologisch), Pflanzenschutz, Ökonomie, Ökologie und Klimaschutz abgeleitet.In organic farming, legumes are indispensable for the nitro­gen supply of arable crops and the protein supply of livestock due to their ability to fix atmospheric nitrogen. In conventional farming, legumes offer the potential to break the often cereal-intensive crop rotations. One of the most important consequences of the break-crop effect is the interruption of the life cycle of crop-specific pathogens and the associated savings of pesticides. This review summarizes the current state of knowledge on crop rotations with and without legumes. It presents and evaluates the agronomic, ecological and economic effects of the cultivation of large- and small-seeded legume species as main or catch crops, when undersown in other crops, or used as components in mixtures. The focus is on relevant publications in scientific journals as well as practice and research reports published between 2010 and 2020 which were carried out in Germany or under comparable climatic conditions. Finally, essential research needs in the areas of crop production (conventional and organic), crop protection, economics, ecology, and climate protection are identified

Western Star (Corner Brook, N.L.), 1912-03-27

The Western Star began publication on Newfoundland's west coast on 4 April 1900, appearing weekly with brief semiweekly periods up to 1952, when it became a daily. The current collection contains 21 April 1900 - 31 March 1926

BonaRes-SIGNAL - Sustainable intensification of agriculture through agroforestry: Einfluss der Baumstreifen auf den mineralischen Stickstoff-Verlauf im Oberboden in einem Alley Cropping-Agroforstsystem

Alley Cropping-Agroforstsysteme (ACS) kombinieren den streifenförmigen Anbau von Bäumen und Ackerkulturen oder Grünland auf derselben landwirtschaftlichen Fläche. Die Baumstreifen beeinflussen die Kulturen in ihrer Nachbarschaft auf vielfältige Weise, u.a. durch den jährlichen Laubfall, mit dem organische Substanz in den Boden zurückgeführt wird. Auf einer ACS-Anlage im östlichen Niedersachsen wurde untersucht, ob die Baumstreifen einen Einfluss auf die Gehalte des mineralischen Stickstoffs im Oberboden des ACS haben. Dazu wurde von März bis Juni der Nmin-Gehalt an verschiedenen Positionen im ACS und einer baumlosen Ackerreferenzfläche bestimmt. Der Nmin-Verlauf in 1 m Entfernung vom Baumstreifen unterschied sich tendenziell von dem in 4 und 7 m vom Baumstreifen entfernt gemessenen sowie der Referenz. Die Menge des gefallenen Laubs war in 1 m Entfernung zum Baumstreifen signifikant höher als in 4 und 7 m vom Baumstreifen entfernt. Diese Ergebnisse deuten auf eine Beeinflussung des Nmin-Gehaltes in 1 m Entfernung durch die Baumstreifen hin, allerdings wiesen die Daten eine große Streuung auf

Multifunctionality of temperate alley-cropping agroforestry outperforms open cropland and grassland

Intensively managed open croplands are highly productive but often have deleterious environmental impacts. Temperate agroforestry potentially improves ecosystem functions, although comprehensive analysis is lacking. Here, we measured primary data on 47 indicators of seven ecosystem functions in croplands and 16 indicators of four ecosystem functions in grasslands to assess how alley-cropping agroforestry performs compared to open cropland and grassland. Carbon sequestration, habitat for soil biological activity, and wind erosion resistance improved for cropland agroforestry (P ≤ 0.03) whereas only carbon sequestration improved for grassland agroforestry (P < 0.01). In cropland agroforestry, soil nutrient cycling, soil greenhouse gas abatement, and water regulation did not improve, due to customary high fertilization rates. Alley-cropping agroforestry increased multifunctionality, compared to open croplands. To ameliorate the environmental benefits of agroforestry, more efficient use of nutrients is required. Financial incentives should focus on conversion of open croplands to alley-cropping agroforestry and incorporate fertilizer management.ISSN:2662-443