Endophytic Beauveria bassiana activates expression of defence genes in grapevine and prevents infections by grapevine downy mildew Plasmopara viticola

Fungal entomopathogens like Beauveria bassiana (Ascomycota: Hypocreales) are known as antagonists of insects with multiple functional and ecological roles, and have attracted increased attention as biocontrol agents in integrated pest management programmes. For some crop plants, it has been proven that endophytic B. bassiana, besides its entomopathogenic habit, can provide protection against plant pathogens or limit their damaging effects. However, for grapevine, limited knowledge is available on the influence of endophytic B. bassiana on fungal pathogens and about the mechanisms underlying putative protection effects. This study assessed the protective potential of endophytic B. bassiana against grapevine downy mildew Plasmopara viticola in greenhouse experiments. Three and seven days after a B. bassiana treatment, potted grapevine plants were inoculated with P. viticola and the evolving disease severity was assessed. Disease severity was significantly reduced in B. bassiana-treated plants compared to control plants, depending on the age of leaves. Furthermore, a microarray and an RT-qPCR analysis were performed to work out fundamental aspects of genes involved in the interaction between grapevine and B. bassiana. The results indicate an up-regulation of diverse defence-related genes in grapevine as a response to endophytic establishment of B. bassiana. Thus, endophytic establishment of an entomopathogenic fungus such as B. bassiana in grapevine plants would represent an alternative and sustainable plant protection strategy, with the potential for reducing pesticide applications in viticulture.     

In vitro effects of flutriafol and azoxystrobin on Beauvaria bassiana and its efficacy against Tetranychus urticae

BACKGROUND: Testing the compatibility of chemical pesticides and fungal biocontrol agents is necessary if these two agents are to be applied together in the integrated management of plant pests and diseases. In this study, the fungicides azoxystrobin (a strobilurin) and flutriafol (a triazole) were tested in vitro for their effects on germination of conidia and mycelial growth of Beauveria bassiana (Bals.) Vuill. and in bioassay for their effect on fungal activity against Tetranychus urticae Koch. The fungicides were tested at three different concentrations [recommended rate for field use (1 × X) and the dilutions 10^?1× X and 10^?2× X]. RESULTS: Flutriafol inhibited growth of mycelia and germination of the fungal conidia at all concentrations tested in vitro, and also reduced the efficacy of B. bassiana in bioassays against mites. The inhibitive effect of azoxystrobin in vitro varied with the concentration applied. A significant effect was observed at 1 × X and 10^?1× X concentrations on both the germination of conidia and mycelia growth. At 10^?2× X concentration, azoxystrobin showed little effect on B. bassiana. However, when this fungicide was tested in bioassays, none of the concentrations reduced B. bassiana activity against mites. CONCLUSION: Azoxystrobin was most compatible with B. bassiana, while flutriafol was the most harmful. Further studies are required to confirm the negative effect of flutriafol on B. bassiana activity. Copyright © 2010 Society of Chemical Industry     

Efficacy of Beauveria bassiana against the red imported fire ant, Solenopsis invicta (Hymenoptera: Formicidae), in Taiwan

BACKGROUND: Combining biological control and chemical control could be used for controlling red imported fire ant (RIFA), Solenopsis invicta, more effectively. Beauveria bassiana F256, a local strain from Taiwan, was evaluated for its efficacy in the control of S. invicta under both laboratory and field conditions. RESULTS: The efficacies of different doses of B. bassiana (Bb) using direct application and bait formulation methods were compared. The number of RIFA workers killed by the direct application of Bb or by bait were significantly higher than those of the control, with different rates of efficacy under laboratory conditions. Under field conditions, the direct application of Bb into RIFA mounds was more efficient in inactivating the mounds than the bait application. CONCLUSION: It was shown that B. bassiana is able to control S. invicta under both laboratory and field conditions and can be used as a biocontrol agent against RIFA in Taiwan. Copyright © 2011 Society of Chemical Industry     

白僵菌及其伴生菌发酵液对线虫的毒力研究

采用发酵液浸没法,以4种线虫作为靶标,对6株白僵菌、7株伴生菌菌株进行了杀线虫活性筛选,以期获得新的、高效的杀线虫生防菌资源。其中:处理24 h对南方根结线虫Meloidogyne incognita 2龄幼虫及大豆胞囊线虫Heterodera glycines 2龄幼虫校正死亡率均达80%以上的菌株仅有白僵菌Snef2598及伴生菌Snef5;供试菌株对水稻干尖线虫Aphelenchoides besseyi的毒力均较低,其中仅有1株白僵菌校正死亡率达到40%以上。处理48 h对南方根结线虫2龄幼虫校正死亡率达90%以上的菌株有白僵菌4株和伴生菌5株;对大豆胞囊线虫2龄幼虫校正死亡率超过90%的菌株有白僵菌3株和伴生菌1株;供试菌株对水稻干尖线虫毒力均较低,校正死亡率达60%以上的菌株有白僵菌3株和伴生菌2株;几乎所有供试菌株,对小杆线虫Caenorhabditis sp.的毒力均很高,处理24 h及48 h的校正死亡率均达97%以上,且被杀死的小杆线虫体壁以及虫体内部物质均被不同程度地消解。研究表明,球孢白僵菌菌株Snef2598及其伴生菌菌株Snef5对4种靶标线虫的毒力均较好,具有进一步研究的价值。     

Susceptibility of larvae and adults of Monochamus galloprovincialis to entomopathogenic fungi under controlled conditions

Six entomopathogenic fungal isolates were tested under controlled conditions, as biological control agents against Monochamus galloprovincialis (Coleoptera: Cerambycidae) (Olivier), the vector of the pine wood nematode Bursaphelenchus xylophilus (Nematoda: Parasitaphelenchidae) (Steiner and Buhrer). The fungi Beauveria bassiana (Bals.-Criv.) Vuill, Metarhizium anisopliae (Metchnikoff) Sorokin, Metarhizium sp. and Fusarium sp. were tested against larvae and adults of the insect, by comparing two exposure techniques: continuous contact and spraying. Regarding the larvae, only Fusarium sp. and Metarhizium sp. killed more than 40% of the individuals, while B. bassiana and M. anisopliae were found to kill 50% of the adults (LT₅₀) within five days. Exposure to B. bassiana reduced adult longevity by 19 days, when compared to untreated beetles, and had a direct efficacy of 46%. Continuous contact with the fungi proved to be more effective than spraying. A larval disinfection protocol was developed to eliminate other fungal isolates from the wood-collected tested individuals. The implications of the results and possible applications of selected strains as bio-control agents against M. galloprovincialis are discussed.     

球孢白僵菌对松墨天牛的致病力及其与花绒寄甲的相容性

为探明昆虫病原真菌球孢白僵菌Beauveria bassiana与天敌昆虫花绒寄甲Dastarcus helophoroides的相容性,观察4株球孢白僵菌菌株的生长性状、产孢量以及孢子萌发率,并选用Bb3275和Bb202菌株测定其对松墨天牛Monochamus alternatus的致病力以及对花绒寄甲的毒力;同时在模拟环境条件下,分别用Bb3275和Bb202菌株的孢子悬浮液先侵染松墨天牛幼虫,再按1∶1比例将花绒寄甲与受侵染的松墨天牛置于同一环境下饲养,观察花绒寄甲的死亡率。结果显示,孢子悬浮液浓度为1×10⁶孢子/mL至1×10⁸孢子/mL时,Bb3275菌株和Bb202菌株对松墨天牛幼虫和成虫的致病力与对照组相比均有显著差异;经4种浓度Bb3275和Bb202菌株侵染花绒寄甲幼虫和成虫15 d后,仅在高浓度1×10⁸孢子/mL时表现出轻微致死作用,但花绒寄甲的存活率均高于85.00%;模拟条件下,松墨天牛幼虫校正死亡率均在80.00%以上,而同环境下花绒寄甲幼虫和成虫均表现出良好的活力,且侵染率为0。表明球孢白僵菌和花绒寄甲之间具有很好的相容性,可以同时应用于松墨天牛的生物防治。     

球孢白僵菌定殖提高番茄对灰霉病抗性及其作用机理

为明确球孢白僵菌Beauveria bassiana定殖对番茄植株抗病性的影响及作用机理,采用灌根法将球孢白僵菌芽生孢子悬浮液接种于番茄植株内,并通过人工接种灰霉菌Botrytis cinerea评价球孢白僵菌定殖后番茄对灰霉病的抗性水平;检测灰霉菌胁迫下番茄植株不同位置叶片内球孢白僵菌的相对含量;测定番茄叶片内草酸氧化酶（oxalate oxidase,OXO）、几丁质酶（chitinase,CHI）和ATP合成酶（ATP synthase,atpA）3种抗病相关基因的表达量。结果表明,球孢白僵菌定殖能够提高番茄植株对灰霉病的抗性,接种灰霉菌第5天,番茄植株发病率、病斑直径和病情指数分别下降了61.6%、41.4%和26.4%;在灰霉菌胁迫下番茄植株内球孢白僵菌偏好于在病原菌感染位置定向聚集,并且引起植物抗病基因OXO、CHI和atpA的表达量上调。表明球孢白僵菌能通过内生定殖与植物互作提高植物抗病性,在植物病害生物防治领域有较大应用潜力。     

Adaptation to pyrrolnitrin in Botrytis cinerea and cost of resistance

The objective of this work was to estimate the risk of a decrease in the efficacy of biocontrol as a result of selection pressure exerted by biocontrol agents on Botrytis cinerea, focusing on pyrrolnitrin, an antibiotic identified in diverse biocontrol agents having an effect on B. cinerea. To evaluate a possible decrease in sensitivity to pyrrolnitrin, 10 successive generations of five isolates of B. cinerea were produced in vitro in the presence of a sublethal dose (10 μg L^?1) of the antibiotic. For one isolate, a significant reduction in the sensitivity to pyrrolnitrin at the fifth generation was observed with a resistance factor of c. 11. The production of 10 additional generations for four of these isolates, with increasing doses of pyrrolnitrin (100–4000 μg L^?1), resulted in the development of variants of B. cinerea with high levels of resistance to the antibiotic (RF > 1000) and a reduced sensitivity in vitro to a pyrrolnitrin‐producing bacterium. Reverse adaptation of resistant variants after 10 additional generations in the absence of selection pressure was not observed, suggesting stability of the resistance. Comparison of the pyrrolnitrin‐resistant generations and their sensitive parental isolates for mycelial growth, sporulation and aggressiveness on plant tissues revealed that the high level of resistance to pyrrolnitrin resulted in a high fitness cost. Mycelial growth was reduced between 1·7 to 3·6 times and sporulation reduced 3·8 to 6·6 times that of sensitive parental isolates. Similarly, aggressiveness was 7 to 10 and 3 to 10 times lower for resistant isolates on tomato and apple, respectively. This study provides evidence that a fungal plant pathogen is able to gradually build up resistance to an antibiotic produced by a biocontrol agent.     

Presence–absence sampling for Tetranychus urticae and its predator Neoseiulus californicus (Acari: Tetranychidae; Phytoseiidae) on strawberries

The use of snails as biocontrol agents against other snails and against aquatic weeds is reviewed, evaluating their success and their impacts on non-target organisms. The predatory snail Euglandina rosea (and other species), although widely used against Achatina fulica (the giant African land snail) on Pacific and Indian Ocean islands, has not been shown to control A. fulica but has seriously impacted endemic island species. The facultative predator Rumina decollata , used in California against Helix aspersa (brown garden snail), is widely considered to be environmentally benign. However, evidence of its effectiveness is weak and it will also consume native snails. Ampullariid and thiarid freshwater snails have been used as competitors (and incidental predators) of snail vectors of human schistosomes, the parasites causing schistosomiasis (bilharzia). Successful control has been reported but impacts on native biotas have been essentially ignored. Ampullariids have been used in attempts to control aquatic weeds, sometimes successfully, but again with little consideration of impacts on native biota. Most snails have generalist feeding habits. Thus they are inappropriate biocontrol agents because of their potential nontarget effects. Rarely has adequate pre-release testing of snails been undertaken and post-release monitoring of non-target impacts has always been incidental. The use of non-native snails for biocontrol purposes is poorly regulated; many introductions are unofficial and sometimes illegal. Use of snails as biocontrol agents, if implemented, must be based on adequate pre-release testing, post-release monitoring and genuine concern for preservation of native biodiversity.     

Insecticidal efficacy of beauveria bassiana,diatomaceous earth and fenitrothion against rhyzopertha dominica and tribolium castaneum on stored wheat

Bioassays were conducted in stored grains to evaluate the combined use of the entomopathogenic fungus Beauveria bassiana, diatomaceous earth (DE) and fenitrothion against adults of Rhyzopertha dominica and Tribolium castaneum. The insecticide agents were applied to wheat as follows: the fungus at 1 × 10⁸ conidia/kg of wheat, DE at 3 g/kg of wheat and fenitrothion at a rate of 0.15 ml/kg of wheat (25% of field dose rate). Surviving insects and progeny production were monitored at thirty-day intervals until four months. For both insect species, significantly less progeny was produced on wheat treated with fenitrothion and DE + B. bassiana formulations in comparison with controls. The effect of insecticides on the grain damage, germination power of wheat and bulk density was also evaluated. After four months, B. bassiana mixed with DE reduced the damaged insect grains by 50% in comparison with both fenitrothion and control treatments. Trials using DE caused a reduction in bulk density while there were no significant differences for germination testing between treatments.     

Growth variation among Bacillus thuringiensis strains can affect screening procedures for supernatant‐secreted toxins against insect pests

BACKGROUND: Supernatant‐secreted proteins in Bacillus thuringiensis (Berliner) (Bt) with insecticidal activity provide an important source of information for discovery of new useful strains and/or entomotoxins. However, physiological variation among isolates might interfere in the detection efficiency of screening procedures on Bt collections. The aim of this study was to assess the magnitude of this variation in a sample of isolates from a tropical Bt collection, which was gauged through the assessment of their temporal patterns of growth and protein secretion in culture supernatants (SNs), as well as of the corresponding toxicity against fall armyworm (Spodoptera frugiperda, JE Smith). Feeding bioassays were performed, with larvae being treated with heated and non‐heated total protein extracted from SNs collected at different culture times. Larva mortality and reduction in pupa formation were observed. RESULTS: Intra‐ and interisolate variations were observed in the temporal patterns of growth, quality and quantity of protein secreted, as well as in insecticidal activity of these SNs, based on larvae mortality and pupation rates. These results suggest that the insecticidal potential of certain isolates can be hidden if comparisons are done on the basis of the same number of cells in the culture and/or the same culturing time. CONCLUSIONS: Methods of screening Bt collections on the basis of feeding bioassays can be misleading with regards to identifying more promising isolates for biocontrol purposes if physiological differences are not considered. The consequences and implications of these findings for the development of experimental systems that depend on toxicity bioassays to identify alternative Bt strains and entomotoxins with practical applicability have been discussed. Copyright © 2011 Society of Chemical Industry     

Interaction Between Entomopathogenic Fungi and Some Aphid Species in Thailand

Seven aphid species were screened with twelve entomopathogenic fungi for the selection of the most effective fungus. Beauveria bassiana CKB-048 caused the highest mortalities for all aphid species tested in their nymphal stage. The cowpea aphid (Aphis craccivora Koch) was chosen for further studies in its adult stage using B. bassiana CKB-048 as a biocontrol agent, and carbosulfan was used for a comparison in greenhouse testing. The mode of action of the fungal killing was studied by scanning electron microscopy. The endophytic colonization of the cowpea plant by B. bassiana CKB-048 was studied and confirmed using both stereo microscopy and transmission electron microscopy. The chitinase enzyme activity of cowpea plants after they were sprayed with the fungus or carbosulfan was found to fluctuate throughout five days. The lethal concentrations of B. bassiana CKB-048 suspensions that killed 50 % (LC₅₀) of A. craccivora was 6.69 × 10⁷ conidia/ml for the nymphs and 8.25 × 10⁷ conidia/ml for the adults. The time for lethality (LT₅₀) with a concentration of 2 × 10⁸ conidia/ml was 3.25 days for nymphs and 4 days for adults.     

球孢白僵菌次生代谢产物对南方根结线虫的作用机制初探

为明确球孢白僵菌Beauveria bassiana对南方根结线虫Meloidogyne incognita的作用机理,从线虫的活动频率、呼吸强度、体液渗透压、总糖含量、可溶性蛋白含量以及乙酰胆碱酯酶(AChE)活性几方面测定了球孢白僵菌Snef23菌株次生代谢产物对南方根结线虫2龄幼虫(J2)的影响。结果表明:Snef23次生代谢产物可抑制南方根结线虫J2的活动频率和呼吸作用,降低其乙酰胆碱酯酶活性,增强虫体内容物的渗漏,干扰J2体内糖和可溶性蛋白的代谢,从而达到毒杀致死作用。研究结果为探明球孢白僵菌杀线虫的作用机制提供了理论依据,可为更好地利用球孢白僵菌及其他天然产物防控植物的线虫病害提供参考。     

一株对桃蚜有高致病性球孢白僵菌的分离、筛选与鉴定

为筛选出对桃蚜Myzus persicae具有高致病性的生防真菌,以从陕西省秦岭原始森林采集到的鳞翅目僵虫虫体中分离获得的5株真菌为研究对象,测定其对桃蚜的致病性并筛选出高致病性菌株表现最佳杀蚜活性时的孢子悬浮液浓度,同时结合形态学及18S rDNA和ITS-rDNA序列分析对致病性最高的病原菌进行鉴定。结果显示,从5株菌株中初步筛选出1株高致病性菌株BQ-63,处理7 d后桃蚜的死亡率为80.33%,校正死亡率为81.58%,僵虫率也达到最高,为80.78%;当菌株BQ-63的孢子浓度为108个/mL时,对桃蚜的致病性达到最高,处理7 d后死亡率为89.53%,校正死亡率为90.10%,僵虫率为89.84%;通过形态学和分子生物学鉴定,确定菌株BQ-63为球孢白僵菌Beauveria bassiana。表明菌株BQ-63对桃蚜具有高致病性,可作为生防真菌进行进一步的研究。     

Differing susceptibility to<Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> formulations of<Emphasis Type="Italic">Thaumetopoea wilkinsoni</Emphasis> populations between forests with different<Emphasis Type="Italic">Bt</Emphasis> management in Israel

The susceptibility ofThaumetopoea wilkinsoni larvae toBacillus thuringiensis (Bt) formulations was screened in 2003 and 2004. Eggs and larvae were collected from pine forests in 11 geographical locations in Israel. Larval mortality bioassays were conducted with commercial formulations (Delfin WG, Dipel DF and Foray 48B) at concentrations ranging from 0.001% to 0.1%. Significant differences in susceptibility toBt were recorded among populations that were treated withBt intensively, frequently, or never. The mortality recorded in a population that was never treated withBt was twice that in an intensivelyBt-treated population. The correlation between susceptibility toBt and the possible resistance to the microbe is discussed. http://www.phytoparasitica.org posting Jan. 31, 2007.     

Photoprotection of Beauveria bassiana: Testing simple formulations for control of the coffee berry borer

The entomopathogenic fungus, Beauveria bassiana is considered to be one of the few natural enemies available for use against the coffee berry borer. In an attempt to enhance the efficacy of this pathogen, a range of concentrations of 22 substances was tested in simple laboratory tests using natural sunlight or a UV light source. Unprotected B. bassiana spores were almost completely inactivated by exposure to 60 min of direct sunlight or 20 s of UV light of 302 nm wavelength. Seven of the 22 substances tested showed little or no photoprotective properties and eight of the substances appeared directly detrimental to spore germination. Of the remainder, sucrose, yeast, yeast extract, uric acid, casein, and molasses had limited photoprotective properties. The most effective substances tested were egg albumen and skimmed milk powder which could extend the persistence of B. bassiana spores by a factor of almost three. A mixture of 3% (w/v) albumen and 4% (w/v) milk powder gave the highest degree of spore protection per unit cost. Young coffee plants sprayed with this mixture did not suffer any significant phytotoxic effects. A field trial, involving two applications of spores with or without the milk and albumen mixture, failed to show that improved spore persistence resulted in increased coffee berry borer control. Very lowlevels of pest infestation observed in field plots together with unusual, unfavourable weather conditions may have accounted for this unexpected result.     

Photostabilization of quinalphos by crystal violet on the surface of kaolinite and palygorskite

Photochemical stability of the insecticide, quinalphos (O,O-diethyl O-quinoxalin-2-yl phosphorothioate), adsorbed on kaolinite and palygorskite was studied. In all cases considerable photostabilization was achieved in comparison with the sample of pesticide in its free form. Improvement of photostabilization was achieved when a cationic dye (crystal violet) was co-adsorbed with the quinalphos. The interactions between quinalphos and clays were studied by Fouriertransform infra-red spectroscopy. It is suggested that photostabilization is due to steric hindrance imposed by the clay surface to the isomerization step of photochemical reaction and pacification of clay surface by crystal violet.     

Endophytic colonization of white jute (Corchorus capsularis) plants by different Beauveria bassiana strains for managing stem weevil (Apion corchori)

Beauveria bassiana (Balsamo) Vuillemin (Ascomycota: Hypocreales), an entomopathogenic fungus, was introduced through seed inoculation with spore suspension as an endophyte in white jute (Corchorus capsularis L.), a bast fiber crop. Out of nine B. bassiana strains, seven, viz., ITCC 6063, ITCC 4512, ITCC 4563, ITCC 5562, ITCC 4796, ITCC 5408 and ITCC 4705, became established as endophytes. The endophytic colonization was initially detected by cultivation on selective medium. Colonization was confirmed by polymerase chain reaction (PCR) using sequence characterized amplified region (SCAR) marker. Endophytic B. bassiana strains colonized in leaves of all the plants grown from treated seeds. However, the colonization frequency varied among the strains. The highest colonization frequency (70.09%) was recorded in ITCC 6063 followed by ITCC 5562 (67.67%) and ITCC 5408 (64.17%); ITCC 4512 exhibited the lowest (42.54%) colonization. ITCC 4925 and ITCC 4644 did not show any colonization. Endophytic colonization of B. bassiana reduced stem weevil infestation under pot culture. ITCC 5408 and ITCC 6063 were found most efficient, with only 10.44% and 14.06% infested plants, respectively.     

Increased toxicity of Bacillus thuringiensis Cry3Aa against Crioceris quatuordecimpunctata,Phaedon brassicae and Colaphellus bowringi by a Tenebrio molitor cadherin fragment

BACKGROUND: Biopesticides containing Cry insecticidal proteins from the bacterium Bacillus thuringiensis (Bt) are effective against many lepidopteran pests, but there is a lack of Bt‐based pesticides for efficient control of important coleopteran pests. Based on the reported increase in Bt toxin oligomerization by a polypeptide from the Cry3Aa receptor cadherin in Tenebrio molitor (Coleoptera: Tenebrionidae), it was hypothesized that this cadherin peptide, rTmCad1p, would enhance Cry3Aa toxicity towards coleopteran larvae. To test this hypothesis, the relative toxicity of Cry3Aa, with or without rTmCad1p, against damaging chrysomelid vegetable pests of China was evaluated. RESULTS: Cry3Aa toxicity was evaluated in the spotted asparagus beetle (Crioceris quatuordecimpunctata), cabbage leaf beetle (Colaphellus bowringi) and daikon leaf beetle (Phaedon brassicae). To assess the effect of rTmCad1p on Cry3Aa toxicity, neonate larvae were fed Cry3Aa toxin alone or in combination with increasing amounts of rTmCad1p. The data demonstrated that Cry3Aa toxicity was significantly increased in all three vegetable pests, resulting in as much as a 15.3‐fold increase in larval mortality. CONCLUSION: The application of rTmCad1p to enhance Cry3Aa insecticidal activity has potential for use in increasing range and activity levels against coleopteran pests displaying low susceptibility to Bt‐based biopesticides. Copyright © 2011 Society of Chemical Industry     

Bt maize and integrated pest management ‐ a European perspective

The European corn borer (Ostrinia nubilalis), the Mediterranean corn borer (Sesamia nonagrioides) and the western corn rootworm (Diabrotica virgifera virgifera) are the main arthropod pests in European maize production. Practised pest control includes chemical control, biological control and cultural control such as ploughing and crop rotation. A pest control option that is available since 1996 is maize varieties that are genetically engineered (GE) to produce insecticidal compounds. GE maize varieties available today express one or several genes from Bacillus thuringiensis (Bt) that target corn borers or corn rootworms. Incentives to growing Bt maize are simplified farm operations, high pest control efficiency, improved grain quality and ecological benefits. Limitations include the risk of resistance evolution in target pest populations, risk of secondary pest outbreaks and increased administration to comply with licence agreements. Growers willing to plant Bt maize in the European Union (EU) often face the problem that authorisation is denied. Only one Bt maize transformation event (MON810) is currently authorised for commercial cultivation, and some national authorities have banned cultivation. Spain is the only EU member state where Bt maize adoption levels are currently delivering farm income gains near full potential levels. In an integrated pest management (IPM) context, Bt maize can be regarded as a preventive (host plant resistance) or a responsive pest control measure. In any case, Bt maize is a highly specific tool that efficiently controls the main pests and allows combination with other preventive or responsive measures to solve other agricultural problems including those with secondary pests. Copyright © 2011 Society of Chemical Industry