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44 55 55 J u l i u s - K ü h n - A r c h i v Ulrike Sölter, Uwe Starfi nger und Arnd Verschwele (Eds.) s The research project HALT AMBROSIA was funded by the European Commission, g HALT Ambrosia - n DG Environment (07.0322/2010/586340/SUB/B2). i d n fi fi nal project report and t c e oj general publication of project fi ndings r p f o n o i t a c i l b u p l a r e n e g d n a t r o p e r t c e j o r p l a n fi - a i s o r b m A T L A H 6 1 0 2 5 5 4 Julius Kühn-Institut Bundesforschungsinstitut für Kulturpfl anzen Julius Kühn-Institut, Bundesforschungsinstitut für Kulturpflanzen (JKI) Veröffentlichungen des JKI Das Julius Kühn-Institut ist eine Bundesoberbehörde und ein Bundesforschungsinstitut. Es um- fasst 16 Institute zuzüglich gemeinschaftlicher Einrichtungen an zukünftig sechs Standorten Das Julius-Kühn-Archiv setzt die seit 1906 erschienenen Mitteilungshefte, eine Reihe von Monogra- (Quedlinburg, Braunschweig, Kleinmachnow, Dossenheim, Siebeldingen, Dresden-Pillnitz) und phien unterschiedlichster Themen von Forschungsarbeiten bis zu gesetzlichen Aufgaben fort. Alle eine Versuchsstation zur Kartoffelforschung in Groß Lüsewitz. Quedlinburg ist der Hauptsitz des bisher erschienenen Ausgaben sind OPEN ACCESS kostenfrei im Internet (http://pub.jki.bund.de) zu Bundesforschungsinstituts. lesen. Hauptaufgabe des JKI ist die Beratung der Bundesregierung bzw. des BMEL in allen Fragen mit Öffentlichkeit und Fachwelt versorgen wir zusätzlich mit verschiedenen Informationsangeboten Bezug zur Kulturpflanze. Die vielfältigen Aufgaben sind in wichtigen rechtlichen Regelwerken, wie über alle Aspekte rund um die Kulturpflanzen. Hierfür stehen Broschüren, Faltblätter, Fachzeitschrif- dem Pflanzenschutzgesetz, dem Gentechnikgesetz, dem Chemikaliengesetz und hierzu erlassenen ten und Monographien, Datenbanken und Themenportale im Internet zur Verfügung. Rechtsverordnungen, niedergelegt und leiten sich im Übrigen aus dem Forschungsplan des BMEL ab. Die Zuständigkeit umfasst behördliche Aufgaben und die Forschung in den Bereichen Pflan- Seit 2009 wird vom Julius Kühn-Institut als wissenschaftliches Fachorgan das Journal für Kultur- zengenetik, Pflanzenbau, Pflanzenernährung und Bodenkunde sowie Pflanzenschutz und Pflan- pflanzen – Journal of Cultivated Plants (vormals Nachrichtenblatt des Deutschen Pflanzenschutz- zengesundheit. Damit vernetzt das JKI alle wichtigen Ressortthemen um die Kulturpflanze – ob auf dienstes) monatlich herausgegeben (http://www.journal-kulturpflanzen.de). dem Feld, im Gewächshaus oder im urbanen Bereich – und entwickelt ganzheitliche Konzepte für den gesamten Pflanzenbau, für die Pflanzenproduktion bis hin zur Pflanzenpflege und -verwen- dung. Forschung und hoheitliche Aufgaben sind dabei eng miteinander verbunden. Weiterführende Informationen über uns finden Sie auf der Homepage des Julius Kühn-Instituts Weiterführende Informationen über uns finden Sie auf der Homepage des Julius Kühn-Instituts unter http://www.julius-kuehn.de. unter http://www.julius-kuehn.de. Spezielle Anfragen wird Ihnen unsere Pressestelle ([email protected]) gern beantworten. Spezielle Anfragen wird Ihnen unsere Pressestelle ([email protected]) gern beantwor- ten. Julius Kühn-Institut, Federal Research Centre for cultivated plants (JKI) The Julius Kühn-Institut is both a research institution and a higher federal authority. It is structured into 16 institutes and several research service units on the sites of Quedlinburg, Braunschweig, Kleinmachnow, Siebeldingen, Dossenheim und Dresden-Pillnitz, complemented by an experimen- tal station for potato research at Groß Lüsewitz. The head quarters are located in Quedlinburg. The Institute’s core activity is to advise the federal government and the Federal Ministry of Food and Agriculture in particular on all issues relating to cultivated plants. Its diverse tasks in this field are stipulated in important legal acts such as the Plant Protection Act, the Genetic Engineering Act and the Chemicals Act and in corresponding legal regulations, furthermore they arise from the new BMEL research plan. The Institute’s competence comprises both the functions of a federal authority and the research in the fields of plant genetics, agronomy, plant nutrition and soil science as well as plant protection and plant health. On this basis, the JKI networks all important departmental tasks relating to culti- vated plants – whether grown in fields and forests, in the glasshouse or in an urban environment – and develops integrated concepts for plant cultivation as a whole, ranging from plant production to plant care and plant usage. Research and sovereign functions are closely intertwined. More information is available on the website of the Julius Kühn-Institut under http://www.julius-kuehn.de. For more specific enquiries, please contact our public relations office (pressestelle@ julius-kuehn.de). Anschrift für Tauschsendungen: Please address exchanges to: Adressez échanges, s‘il vous plait: Para el canje dirigirse por favor a: Gemeinschaft der Förderer und Freunde Informationszentrum und Bibliothek des Julius Kühn-Instituts, Bundesforschungsinstitut für Kulturpflanzen e.V. (GFF) Julius Kühn-Institut, Bundesforschungsinstitut für Kulturpflanzen Erwin-Baur-Str. 27, 06484 Quedlinburg, Königin-Luise-Straße 19 Tel.: 03946 47-200, E-Mail: [email protected] D-14195 Berlin, Germany Internet: http://www.julius-kuehn.de/ Bereich “Das JKI/Wer wir sind/Fördervereine” E-Mail: [email protected] 44444444444 55555555555 55555555555 J u l i u s - K ü h n - A r c h i v Ulrike Sölter, Uwe Starfi nger und Arnd Verschwele (Eds.) HALT Ambrosia - fi nal project report and general publication of project fi ndings Julius Kühn-Institut Bundesforschungsinstitut für Kulturpfl anzen Herausgeber Ulrike Sölter1, Uwe Starfi nger2 und Arnd Verschwele1 1 Julius Kühn-Institut, Bundesforschungsinstitut für Kulturpfl anzen Institut für Pfl anzenschutz in Ackerbau und Grünland Messeweg 11-12 38104 Braunschweig 2 Julius Kühn-Institut, Bundesforschungsinstitut für Kulturpfl anzen Institut für nationale und internationale Angelegenheiten der Pfl anzengesundheit Messeweg 11-12 38104 Braunschweig Foto Titel: Julius Kühn-Institut, Bundesforschungsinstitut für Kulturpfl anzen Bibliografi sche Information der Deutschen Nationalbibliothek Die deutsche Nationalbibliothek verzeichnet diese Publikation in der Deutschen Nationalbibliografi e; detaillierte bibliografi sche Daten sind im Internet über http://dnb.d-nb.de abrufbar. ISSN 1868-9892 ISBN 978-3-95547-036-4 DOI 10.5073/jka.2016.455.000 Alle Beiträge im Julius-Kühn-Archiv sind unter einer Creative Commons - Namensnennung - Weitergabe unter gleichen Bedingungen - 4.0 Lizenz veröff entlicht. Printed in Germany by Arno Brynda GmbH, Berlin. Table of Contents Introduction: the HALT Ambrosia project .....................................................................7 Ulrike Sölter, Uwe Starfinger, Arnd Verschwele A standard protocol for sampling and handling of seed material ..............................9 Gerhard Karrer Germination and viability of ragweed seeds .............................................................13 Gerhard Karrer Response of common ragweed (Ambrosia artemisiifolia L.) to soil salinity .............14 Robert Leskovšek and Andrej Simončič Triphenyl Tetrazolium Chloride Ringtest ....................................................................16 Gerhard Karrer, Gabriella Kazinczi, Ulrike Sölter, Uwe Starfinger, Arnd Verschwele, Zsuzsa Basky, Felicia Lener, Nina Waldhäuser, Ildikó Kerepesi, Ferenc Pál-Fám, Sándor Máté, Solvejg K. Mathiassen, Per Kudsk, Robert Leskovšek , Johan van Valkenburg Studying the seasonal pattern of field emergence of ragweed in Hungary ............20 Gabriella Kazinczi Effect of emergence time on life cycle, shoot dry weight, pollen and seed production .....................................................................................................................21 Gabriella Kazinczi, Ferenc Pál-Fám, Richárd Hoffmann, Ildikó Kerepesi Soil seed bank studies I-III ............................................................................................24 Gerhard Karrer, Felicia Lener and Nina Waldhäuser Intraspecific differences of seed longevity between ragweed populations in Hungary .....................................................................................................................31 Gabriella Kazinczi, Ildikó Kerepesi Pre-trials on seed viability at the Julius Kühn-Institut ..............................................32 Uwe Starfinger, Ulrike Sölter Pre-trials on seed viability at the University of Natural Resources and Life Sciences .................................................................................................................34 Gerhard Karrer Viability of seeds ripened after cutting (pot experiment) .........................................36 Ulrike Sölter, Arnd Verschwele, Uwe Starfinger Post harvest seed ripening (pot experiment) .............................................................37 Gerhard Karrer Field experiment on longevity of the seeds in the soil seed bank (Joint experiment) .......................................................................................................41 Gerhard Karrer, Rea Hall, Felicia Lener, Nina Waldhäuser, Gabriella Kazinczi, Ildikó Kerepesi, Sándor Máté, Ulrike Sölter, Uwe Starfinger, Arnd Verschwele, Solvejg K. Mathiassen, Per Kudsk, Robert Leskovšek, Andrej Simončič Julius-Kühn-Archiv 455 | 2016 3 Field experiment on longevity of the seeds in the soil seed bank (initial seed burial experiment at the University of Natural Resources and Life Sciences BOKU) ..............................................................................................48 Gerhard Karrer Recommendations on safety of composting or use as biogas fuel of common ragweed seed contaminated material ........................................................50 Uwe Starfinger, Ulrike Sölter Implications of life history for control and eradication .............................................58 Gerhard Karrer A standard protocol for testing viability with the Triphenyl Tetrazolium Chloride (TTC) Test .......................................................................................................65 Uwe Starfinger, Gerhard Karrer Perspectives for biological control ..............................................................................67 Urs Schaffner, Esther Gerber Efficacy report and guidance on options for thermal control of Ambrosia artemisiifolia .................................................................................................................85 Ulrike Sölter, Arnd Verschwele Guidance for the Management of contaminated soil ...............................................88 Beate Alberternst, Stefan Nawrath Improving efficiency of mechanical ragweed control in urban areas ....................117 Gerhard Karrer, Zsuzsa Basky Control of common ragweed by mowing and hoeing ............................................118 Gerhard Karrer Identification of correct timing of mowing based on mowing in the most vulnerable phenological stages of ragweed ...................................................125 Zsuzsa Basky Experiments on non-chemical and integrated control strategies ..........................145 Zsuzsa Basky Suppressing common ragweed biomass with integrated farming methods ......................................................................................................................146 Ulrike Sölter, Arnd Verschwele Outcompeting common ragweed by sowing different seed mixtures combined with various cutting regimes ..................................................................147 Gerhard Karrer, Ivana Milakovic Mowing regime experiment on field roadside populations of common ragweed ......................................................................................................................148 Gerhard Karrer, Ivana Milakovic 4 Julius-Kühn-Archiv 455 | 2016 The influence of different catch crops incorporated into the soil to ragweed competition in following crops .................................................................150 Robert Leskovšek , Andrej Simončič Growth and development of common ragweed (Ambrosia artemisiifolia L.) under different nitrogen, water and competition levels .....................................................................................................151 Robert Leskovšek Competitiveness of common ragweed against different plant species ................152 Gabriella Kazinczi, Richárd Hoffmann Control of common ragweed in ALS herbicide-resistant sunflower hybrids (Helianthus annuus) ......................................................................................154 Tamas Kömives, Peter Reisinger, Andras Bittsanszky Efficacy of different herbicides on common ragweed in oil pumpkins (Cucurbita pepo) ..........................................................................................................159 Andrej Simončič, Robert Leskovšek Efficacy of bio-herbicides against ragweed .............................................................161 Robert Leskovšek, Ulrike Sölter, Solvejg K. Mathiassen Report on the feasibility and benefits of spot spraying .........................................162 Tamas Kömives Efficacy of imazamox on Ambrosia artemisiifolia .....................................................172 Ulrike Sölter, Arnd Verschwele Effects of low herbicide dosage on production and fertility of common ragweed seeds ............................................................................................................174 Ulrike Sölter, Arnd Verschwele Effects of treatment timing .......................................................................................175 Solvejg K. Mathiassen, Per Kudsk Effect of sequential treatments .................................................................................176 Solvejg K. Mathiassen, Per Kudsk Effects of different herbicide treatments on common ragweed in winter wheat (Hungary) ........................................................................................................178 Gabriella Kazinczi, Imre Béres Effects of different herbicide treatments on common ragweed in maize (Hungary) ....................................................................................................................179 Gabriella Kazinczi, Róbert Novák, Ildikó Kerepesi Effects of different herbicide treatments on common ragweed on wheat stubble (Hungary) .......................................................................................................181 Gabriella Kazinczi, Sándor Máté, Ferenc Pál-Fám, Ildikó Kerepesi Julius-Kühn-Archiv 455 | 2016 5 HALT Ambrosia - final project report and general publication of project findings HALT Ambrosia - final project report and general publication of project findings Effects of different herbicide treatments for common ragweed control at different phenological stages under field conditions (Hungary) ......................183 Gabriella Kazinczi, Sándor Máté Herbicide efficacy for common ragweed control after defoliation (Slovenia) ....................................................................................................................187 Robert Leskovšek, Andrej Simončič, Mario Lešnik Biodiversity impacts of common ragweed ..............................................................188 Beate Alberternst, Stefan Nawrath, Uwe Starfinger Outlook .......................................................................................................................227 Uwe Starfinger, Ulrike Sölter, Arnd Verschwele Recommendations for countries affected by common ragweed invasion .......................................................................................................................228 Uwe Starfinger, Ulrike Sölter, Arnd Verschwele Index of Authors .........................................................................................................232 6 Julius-Kühn-Archiv 455 | 2016 HALT Ambrosia - final project report and general publication of project findings HALT Ambrosia - final project report and general publication of project findings Introduction: the HALT Ambrosia project Ulrike Sölter1, Uwe Starfinger2, Arnd Verschwele1 1Julius Kühn-Institut, Federal Research Centre for Cultivated Plants, Institute for Plant Protection in Field Crops and Grassland, Messeweg 11/12, 38104 Braunschweig, Germany; e-mail: [email protected]; 2Julius Kühn-Institut, Federal Research Centre for Cultivated Plants, Institute for National and International Plant Health, Messeweg 11/12, 38104 Braunschweig, Germany DOI 10.5073/jka.2016.455.01 Common ragweed – a troublesome invader Ambrosia artemisiifolia (common ragweed) is a tall erect annual of the daisy family (Asteraceae) na- tive to North America. The plant has been inadvertently imported to many countries in Europe, Asia and Australia. In Europe, the first populations were found in the mid-1800s. The species has spread over several regions in Europe, having been introduced separately to France and Northern Italy and later to South-eastern Europe from the 1900s onward. At present it is spreading through Europe and Asia. Information about the current distribution and densities of its appearance is scat- tered in national databases and publications. This invasive weed has established on arable and non- cultivated land like roadway sides and construction land. A. artemisiifolia can be a strong competitor to sunflowers, potatoes, pumpkins and legumes and can lead to high yield losses. The male flowers produce large quantities of pollen which are of high allergenic potential. Although not sufficiently shown so far, impacts on biodiversity can also not be excluded. The plant thus is a heavy burden on public health, agriculture and biodiversity with resulting high economic losses. European Commission: DG ENV work on invasive species In the EU Commssion, DG Environment, activities “Towards an EU Strategy on Invasive Species” date back to 2008 and before. More recently DG ENV initiated two open calls for proposals in 2010 to further support the development of policies in the field. Two projects resulted from this, “Assessing and controlling the spread and the effects of common ragweed in Europe (ENV.B2/ETU/2010/0037)” finished in October 2012 and “Complex research on methods to halt the Ambrosia invasion in Eu- rope - HALT Ambrosia” finished in May 2014. Both these projects focussed on common ragweed which was used as a flagship species for these projects which served as pilot studies for possibili- ties to deal with invasive plants. Meanwhile, further developments led to the “REGULATION (EU) No 1143/2014 OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL of 22 October 2014 on the pre- vention and management of the introduction and spread of invasive alien species” which entered into force on 1 January 2015. This Regulation seeks to address the problem of invasive alien species in a comprehensive manner so as to protect native biodiversity and ecosystem services, as well as to minimize and mitigate the human health or economic impacts that these species can have. The Regulation foresees three types of interventions; prevention, early detection and rapid eradication, and management. A list of invasive alien species of union concern has recently been developed. The project HALT AMBROSIA 2011-2014 The project was jointly implemented by the following institutions: Project co-ordinator: Julius Kühn-Institut, Bundesforschungsinstitut für Kulturpflanzen, Braun- schweig, Germany (JKI), Project partner: Universität für Bodenkultur Wien, Austria (BOKU) Julius-Kühn-Archiv 455 | 2016 7 HALT Ambrosia - final project report and general publication of project findings HALT Ambrosia - final project report and general publication of project findings Project partner: Plant Protection Institute, Hungarian Academy of Sciences, Hungary (PPI) Project partner: Kaposvar University, Hungary (KU) Project partner: Agricultural Institute of Slovenia, Slovenia (KIS) Project partner: Aarhus University, Denmark (AU) with support from associated partners: CAB International (CABI), Delemont, CH, ACW Changins CH, Projektgruppe Biodiversität, Friedberg, DE The overall aim of our project was to contribute to the reduction of the prevalence of the invasive alien plant A. artemisiifolia in European countries in order to reduce the burden on public health, agriculture and biodiversity. We developed strategy elements for the reduction of the occurrence of ragweed and its pollen in countries where the species is already established, e.g., Hungary, Slovenia, parts of Austria, and South-eastern Central Europe and for the prevention of further import and spread in countries not yet heavily infested, such as Germany, Denmark and Northern European countries. The gaps in the existing information which is needed for understanding historical suc- cesses and failures of prevention, control and eradication activities were analysed. This included: • a fuller understanding of critical elements in the life history of common ragweed • an evaluation of chemical, mechanical and biological control measures Laboratory and field experiments about the germination biology and seed bank behaviour and the proportion of viable seeds found in silage and biogas plants and transported commodities such as soils were investigated. Efficacy of non-chemical control measures on Ambrosia and of combina- tions thereof were determined as well as the best use of herbicides. Therefore information on the best application and timing of control measures could be derived. Also the impacts of ragweed stands on other plants as well as impacts of control measures on non-target species were part of the research. The research led to the publication of individual results in various forms, including journals, confer- ence papers etc. The full research report as sent to and accepted by the Commission was available on the project website (no longer online) and is found on that of the Commission: http://ec.europa. eu/environment/nature/invasivealien/index_en.htm. Several project partners have expressed the wish to have all the research available in a single volume, including that not deemed suitable for publication in peer-reviewed journals. The project has contributed to building a network of scientists who study various aspects of the ragweed issue. Even after the project has helped answer some questions, the work on common rag- weed needs to continue. Project partners team up with other researchers in order to carry on with scientific studies but also to seek practical solutions for the ragweed problem: how to save people from bad health, farmers from yield losses and the environment from a potentially noxious invader. Currently many of the project partners and scores of other scientists are engaged in the COST action FA 1203 SMARTER (ragweed.eu) and also in the International Ragweed Society (www.international- ragweedsociety.org), both of which aim at helping solve the ragweed problem. For these researchers the present volume may be of value. We are grateful that the Julius Kühn-Institut offered to produce and fund this volume. The results presented here were mainly found in the years 2011 – 2014, and the texts, including citation of references could not be brought to the newest state throughout. We still hope that the book can contribute to readers being able to access the current state of some of the knowledge on ragweed in a comprehensive form and thus carry on with the work. 8 Julius-Kühn-Archiv 455 | 2016

Description:
Di'Tommaso A., 2004: Germination behavior of common ragweed (Ambrosia artemisiifolia) populations across a range of salinities. Weed Science [email protected]. DOI 10.5073/jka.2016.455.09. Common ragweed seeds were sampled in different years and various parts of Hungary, stored un-.
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Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.