TY  - THES
A1  - Schumacher, Kerstin
T1  - Effekte einer reduzierten Dosis von Pflanzenschutzmitteln auf tritrophische Systeme im Ackerbau
T1  - Effects of reduced pesticide dose on tritrophic systems in agriculture
N2  - Chemische Pflanzenschutzmittel (PSM) bekämpfen nicht nur Schadorganismen, sondern haben aufgrund ihrer hohen Toxizität auch negative Auswirkungen auf Nicht-Ziel-Organismen. Die Fragestellung der Arbeit war es, ob mit reduzierten Anwendungen von PSM ihr Gefährdungspotenzial für Prädatoren von Schädlingen verringert und dadurch das Potenzial der natürlichen Schädlingsregulation erhöht wird. In dreijährigen Freilanduntersuchungen wurden die Effekte einer dauerhaft reduzierten Dosis von chemischen PSM auf die ökologische Situation im Ackerbau anhand von drei Fallbeispielen in einem konventionell bewirtschafteten Betrieb in der Magdeburger Börde untersucht. Drei über 15 ha große Felder wurden dauerhaft in zwei Teilflächen geteilt, wobei eine Teilfläche mit der vom Landwirt gewünschten Dosis (100 %-Variante) und die andere mit jeweils genau der halben Dosis (50 %-Variante) behandelt wurde. Mittels dieser Halbfelder-Vergleiche wurden die ökologischen Situationen bezüglich des Auftretens von Blattläusen und ihren Prädatoren sowie Unkräutern vor und nach der jeweiligen PSM-Behandlung aufgenommen und ökonomische Parameter ermittelt. Ergänzend wurden im Labor Modellgefäßversuche mit abgestuften Dosierungen von Insektiziden und Herbiziden durchgeführt. Die Insektizidbehandlung übte einen großen Einfluss auf die Blattläuse und ihre Prädatoren aus, während alle vorherigen Herbizid- und Fungizidbehandlungen zu keinen Unterschieden in der Abundanz der Blattläuse und ihrer Prädatoren zwischen beiden Varianten hervorriefen. Die reduzierte Insektiziddosis führte zu keiner guten Blattlauskontrolle, während die Abundanz der blattlausspezifischen Prädatoren positiv beeinflusst wurde. Die Araneae reagierten auf die reduzierte Dosis mit einer teilweise erhöhten Aktivitätsdichte und Artendiversität. Dagegen waren diesbezüglich keine eindeutigen Effekte auf die Carabidae festzustellen. Es traten keine strukturellen Veränderungen in Form einer erhöhten Unkrautdichte durch die reduzierte Herbiziddosis auf. Erste Hinweise auf mögliche langfristige Auswirkungen einer dauerhaft reduzierten PSM-Anwendung konnten nur bei der Verunkrautung und der Aktivitätsdichte der Araneae beobachtet werden. Blattläuse profitierten demnach mehr von der reduzierten Anwendung der PSM als ihre Prädatoren, so dass zwar das Potenzial der natürlichen Blattlausregulation erhöht, die Selbstregulation aber nicht verbessert wurde. Die geschonten Prädatoren schafften es nicht, die vorhandene Restpopulation der Blattläuse zu reduzieren. Dagegen konnte in den Laborversuchen gezeigt werden, das schon bei deutlich reduzierten Insektiziddosen eine ausreichende Blattlausbekämpfung möglich ist und eine weitere Einsparung durch Ausnutzung der natürlichen Regulation durch Prädatoren erreicht werden kann. Allerdings ist eine Übertragung der Ergebnisse von Laboruntersuchungen auf Freilandbedingungen schwierig. Es kann zu einer Überschätzung der Prädatorleistung führen.
N2  - Pesticide application in order to control pest populations can also affects non-target organisms such as beneficials. Thus, effects of low-input pesticide use on the tritrophic system crop – aphid – predator were investigated in field and laboratory studies. The hypothesis was: 50% doses of pesticides, particularly insecticides, permanently conserves beneficials, improves natural control and enhances biodiversity in fields. The field study was carried out in a conventional farm in an intensive cropping region of Central Germany (Magdeburger Boerde) from 2004-2006 using half-field comparisons. Three fields (≥15 ha) were divided into two halves during the whole period of investigation representing low- and high-input variants. One half was treated by permanently 50% reduced pesticide doses, whereas the other one was characterised by good plant protection practise (100%). To determine ecological effects of a low-input plant protection strategy, abundances of aphids and their predators as well as of weeds were investigated before and after pesticide applications.In adddition, economic parameters were determined. Insecticide treatment caused greatest effect on aphids and their predators, whereas fungicide and herbicide applications did not affect their abundances. The reduced insecticide dose did not lead to a good aphid control, but the abundance of aphid specific predators was positive affected and Araneae showed enhanced activity density and diversity by the low-input insecticide use. No clear effect of reduced insecticides use on abundance, structure of dominance, and diversity of carabids could be observed. No structural changes in terms of an increased density of weeds were found. Accumulative effects of reduced pesticide use could only be observed concerning weed density and activity density of Araneae after three years. It is concluded, that aphids profit more from reduced pesticide dose than their predators. The increased predator potential did not lead to a better natural control because of higher relative survival rate of aphids in the 50%-variant. In contrast to the field study, in laboratory aphids could be sufficiently reduced by low-input insecticide doses. In some cases the dose of insecticide could be reduced even more by utilisation of the predator potential to receive a good pest control. But it is difficult to transfer the results of laboratory studies to field conditions. It could result in an overestimation of the potential of natural regulation by a predator.
KW  - Blattläuse
KW  - Nicht-Ziel-Arthropoden
KW  - Insektizide
KW  - tritrophisches System
KW  - Weizen
KW  - aphids
KW  - non-target arthropods
KW  - insecticides
KW  - tritrophic system
KW  - crop
Y1  - 2007
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-15675
ER  - 
TY  - GEN
A1  - Errard, Audrey
A1  - Ulrichs, Christian
A1  - Kühne, Stefan
A1  - Mewis, Inga
A1  - Mishig, Narantuya
A1  - Maul, Ronald
A1  - Drungowski, Mario
A1  - Parolin, Pia
A1  - Schreiner, Monika
A1  - Baldermann, Susanne
T1  - Metabolite profiling reveals a specific response in tomato to predaceous Chrysoperla carnea larvae and herbivore(s)-predator interactions with the generalist pests Tetranychus urticae and Myzus persicae
T2  - Frontiers in plant science
N2  - The spider mite Tetranychus urticae Koch and the aphid Myzus persicae (Sulzer) both infest a number of economically significant crops, including tomato (Solanurn lycopersicum). Although used for decades to control pests, the impact of green lacewing larvae Chrysoperla carnea (Stephens) on plant biochemistry was not investigated. Here, we used profiling methods and targeted analyses to explore the impact of the predator and herbivore(s)-predator interactions on tomato biochemistry. Each pest and pest -predator combination induced a characteristic metabolite signature in the leaf and the fruit thus, the plant exhibited a systemic response. The treatments had a stronger impact on non-volatile metabolites including abscisic acid and amino acids in the leaves in comparison with the fruits. In contrast, the various biotic factors had a greater impact on the carotenoids in the fruits. We identified volatiles such as myrcene and alpha-terpinene which were induced by pest -predator interactions but not by single species, and we demonstrated the involvement of the phytohormone abscisic acid in tritrophic interactions for the first time. More importantly, C. carnea larvae alone impacted the plant metabolome, but the predator did not appear to elicit particular defense pathways on its own. Since the presence of both C. carnea larvae and pest individuals elicited volatiles which were shown to contribute to plant defense, C. carnea larvae could therefore contribute to the reduction of pest infestation, not only by its preying activity, but also by priming responses to generalist herbivores such as T urticae and M. persicae. On the other hand, the use of C. carnea larvae alone did not impact carotenoids thus, was not prejudicial to the fruit quality. The present piece of research highlights the specific impact of predator and tritrophic interactions with green lacewing larvae, spider mites, and aphids on different components of the tomato primary and secondary metabolism for the first time, and provides cues for further in-depth studies aiming to integrate entomological approaches and plant biochemistry.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 454 
KW  - carotenoids
KW  - plant volatiles
KW  - Chrysopidae
KW  - Solanaceae
KW  - multiple-pest infestation
KW  - tritrophic system
KW  - Twister TM
KW  - biological pest control
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-407913
ER  - 
TY  - JOUR
A1  - Errard, Audrey
A1  - Ulrichs, Christian
A1  - Kühne, Stefan
A1  - Mewis, Inga
A1  - Mishig, Narantuya
A1  - Maul, Ronald
A1  - Drungowski, Mario
A1  - Parolin, Pia
A1  - Schreiner, Monika
A1  - Baldermann, Susanne
T1  - Metabolite Profiling Reveals a Specific Response in Tomato to Predaceous Chrysoperla carnea Larvae and Herbivore(s)-Predator Interactions with the Generalist Pests Tetranychus urticae and Myzus persicae
JF  - Frontiers in plant science
N2  - The spider mite Tetranychus urticae Koch and the aphid Myzus persicae (Sulzer) both infest a number of economically significant crops, including tomato (Solanurn lycopersicum). Although used for decades to control pests, the impact of green lacewing larvae Chrysoperla carnea (Stephens) on plant biochemistry was not investigated. Here, we used profiling methods and targeted analyses to explore the impact of the predator and herbivore(s)-predator interactions on tomato biochemistry. Each pest and pest -predator combination induced a characteristic metabolite signature in the leaf and the fruit thus, the plant exhibited a systemic response. The treatments had a stronger impact on non-volatile metabolites including abscisic acid and amino acids in the leaves in comparison with the fruits. In contrast, the various biotic factors had a greater impact on the carotenoids in the fruits. We identified volatiles such as myrcene and alpha-terpinene which were induced by pest -predator interactions but not by single species, and we demonstrated the involvement of the phytohormone abscisic acid in tritrophic interactions for the first time. More importantly, C. carnea larvae alone impacted the plant metabolome, but the predator did not appear to elicit particular defense pathways on its own. Since the presence of both C. carnea larvae and pest individuals elicited volatiles which were shown to contribute to plant defense, C. carnea larvae could therefore contribute to the reduction of pest infestation, not only by its preying activity, but also by priming responses to generalist herbivores such as T urticae and M. persicae. On the other hand, the use of C. carnea larvae alone did not impact carotenoids thus, was not prejudicial to the fruit quality. The present piece of research highlights the specific impact of predator and tritrophic interactions with green lacewing larvae, spider mites, and aphids on different components of the tomato primary and secondary metabolism for the first time, and provides cues for further in-depth studies aiming to integrate entomological approaches and plant biochemistry.
KW  - carotenoids
KW  - plant volatiles
KW  - Chrysopidae
KW  - Solanaceae
KW  - multiple-pest infestation
KW  - tritrophic system
KW  - Twister (TM)
KW  - biological pest control
Y1  - 2016
U6  - https://doi.org/10.3389/fpls.2016.01256
SN  - 1664-462X
VL  - 7
SP  - 456
EP  - +
PB  - Frontiers Research Foundation
CY  - Lausanne
ER  -