不同土壤处理剂对设施蔬菜黄瓜根结线虫防治技术研究

为了筛选蔬菜根结线虫的防治技术,在赤峰市进行了7种不同土壤处理药剂对黄瓜根结线虫的防治效果田间试验,结果表明,应用7种不同土壤处理药剂进行土壤处理,揭膜放气5d后定植黄瓜,对黄瓜生长无不良影响,而且对根结线虫均有较好的抑制作用,其中98.1％1,3-二氯丙烯-氯化苦复配胶囊16 kg/667 m2、95％1,3-二氯丙烯液剂65 kg/667m2及10％液体石灰氮65 kg/667m2对黄瓜根结线虫的防治效果达90％左右,优于目前生产中常用药剂42％威百亩水剂6 kg/667m2和10％噻唑磷颗粒剂2 kg/667m2的防治效果,并且可以显著地提高黄瓜产量,适于在设施蔬菜生产上推广使用.     

四种熏蒸剂对辣椒疫霉和南方根结线虫的毒力

为明确不同熏蒸剂对土传病原菌辣椒疫霉Phytophthora capsici和南方根结线虫Meloidogyne incognita的毒力,采用密闭熏蒸法测定了4种土壤熏蒸剂氯化苦、棉隆、威百亩、1,3-二氯丙烯的毒力及1,3-二氯丙烯和氯化苦复配的联合毒力。结果表明:氯化苦、棉隆、威百亩、1,3-二氯丙烯对辣椒疫霉的EC₅₀分别为0.12、2.44、8.30、8.45 mg/L; 对南方根结线虫的EC₅₀ 分别为1.23、0.22、0.30、0.18 mg/L。1,3-二氯丙烯和氯化苦以2:1、1:1、1:2比例复配时对辣椒疫霉的EC₅₀ 分别为1.13、0.24、0.14 mg/L;对南方根结线虫的EC₅₀分别为0.19、0.32、0.61 mg/L。结合经济效益和多种病害兼治的原则,推荐使用1,3-二氯丙烯与氯化苦1:1配比,可兼治辣椒疫病和根结线虫病。     

41.7%氟吡菌酰胺悬浮剂不同施药时期对黄瓜根结线虫的防治效果

根结线虫在内蒙古设施黄瓜生产中平均造成30%以上的产量损失,危害严重时导致绝收,为了明确41.7%氟吡菌酰胺SC有效防治黄瓜根结线虫的最佳施药时期,在定植后当天、3 d、7 d和15 d分别使用41.7%氟吡菌酰胺SC稀释1 500倍液灌根;以定植后当天使用对照药剂20%噻唑膦EW稀释1 000倍液灌根、10%噻唑膦GR 2 kg/667 m2地面撒施及未施药处理为对照,施药71 d后41.7%氟吡菌酰胺SC处理区的土壤根结线虫虫口减退率分别为43.75%、37.39%、32.05%、18.12%,对黄瓜根结线虫的防治效果分别为66.4%、60.8%、55.6%、33.4%,对照药剂处理根结线虫虫口减退率分别为36.4%、25.0%,防治效果分别为64.6%、39.8%。研究结果表明,〖JP+1〗41.7%氟吡菌酰胺SC稀释1 500倍药液于设施黄瓜定植后当天和3 d灌根处理对根结线虫的防治效果较好,都达到60%以上,增产明显,分别为25.1%和39.2%,本研究为41.7%氟吡菌酰胺SC防治黄瓜根结线虫提供理论依据。     

5种生物制剂对设施蔬菜根结线虫防治技术研究

蔬菜根结线虫已成为内蒙古赤峰市设施蔬菜园区的主要病害,对黄瓜和番茄造成严重的产量损失,为了筛选高效、安全的生物杀菌剂,2011-2012年在赤峰市松山区设施蔬菜园区进行了5种不同生物杀菌剂对设施黄瓜和番茄根结线虫防治的田间试验,在黄瓜和番茄定植时用100亿cfu/g厚孢轮枝菌粉剂0.2kg/667m2撒施,2%阿维菌素+多聚糖乳油3 000倍稀释液灌根处理,0.2亿cfu/g淡紫拟青霉颗粒剂5kg/667m2撒施,10亿cfu/mL蜡质芽胞杆菌水剂6L/667m2灌根,1.8%阿维菌素乳油500倍稀释液灌根,设4次重复,并设空白对照。定植20d后再用同样的浓度和方法处理一次,结果表明:5种生物杀菌剂对黄瓜和番茄根结线虫的防治效果为20%~60%,10亿cfu/mL蜡质芽胞杆菌水剂效果最好,达到56.3%,同时可以提高黄瓜和番茄的商品性,适于在设施蔬菜上推广使用。     

土壤药剂处理结合阳光消毒防治番茄根结线虫技术评价

为了筛选安全、高效、实用的化学防治技术,对国内外生产的5种杀线虫剂(棉隆、1,3 二氯丙烯·氯化苦、威百亩、噻唑磷、溴甲烷)土壤处理结合阳光消毒防治番茄根结线虫的效果进行了评价。结果表明,使用98%棉隆微粒剂450 kg/hm2或10%噻唑磷颗粒剂30 kg/hm2防治番茄根结线虫(Meloidogyne incognita),结合夏季高温进行阳光消毒,能有效地降低番茄根结线虫的数量,减轻根结线虫的危害程度,节省农户的生产成本,提高番茄的产量和农户的经济效益,是夏季防治番茄根结线虫的有效措施。     

施用生防菌菌剂与日光消毒和生物熏蒸相结合防治番茄根结线虫的研究

在温室条件下,研究了覆膜日光消毒、有机物料生物熏蒸和接种根结线虫拮抗菌Bacillus cereus X5对番茄生物量、根结线虫侵染以及根际土壤和土体土壤中微生物数量变化的影响。结果表明,对根结线虫滋生土壤进行覆膜日光消毒、生物熏蒸和接种拮抗菌的联合处理效果最佳,优于单一处理。联合处理的番茄生物量干重比对照增加了1.8倍;每株番茄根结线虫卵块数和每卵块的虫卵数量分别减少了190.4%和380.5%,对根结线虫的防治效果达到82.7%;根际土壤和土体土壤的细菌和真菌数量显著增加;土壤中根结线虫的数量显著减少。     

土壤化学熏蒸剂在根结线虫防治中的应用

概述了化学熏蒸剂在根结线虫防治中的应用。介绍了溴甲烷、碘甲烷、硫酰氟、棉隆、威百亩、1,3-二氯丙烯、氯化苦、氰氨化钙、异硫氰酸甲酯、二甲基二硫等主要土壤化学熏蒸剂的研究、开发和应用概况。提出应增强新型熏蒸剂的筛选和产品商业化开发,深化作用机制和田间应用技术研究。     

农药配合使用对庆阳香瓜根结线虫病的防治效果

根结线虫病严重发生已成为庆阳香瓜设施生产的主要障碍。2017-2019年,选择根结线虫发生严重的日光温室,在伏季统一进行地面深翻灌水覆膜扣棚15d处理后,比较了12个药剂组合处理对庆阳香瓜根结线虫病的防效。结果表明:在伏季覆盖闷棚处理后,定植期穴施0.5%阿维菌素颗粒剂5 000 g/667m~2,生长期以5%阿维菌素乳油3 000倍液或5%甲维盐水分散粒剂1 500倍液500 mL/株灌根2次,防病效果分别为66.1%、76.8%。经多点示范,以上2个药剂配合使用处理对庆阳香瓜根结线虫病的平均防效达71.2%。     

生物熏蒸结合阳光消毒治理温室根结线虫技术

根结线虫病是危害北方大棚蔬菜的重要病害,严重影响蔬菜的产量。利用“麦秆+石灰氮”及“麦秆+鸡粪+碳酸氢铵”两种方法进行生物熏蒸,结合夏季高温闷棚进行阳光消毒,探讨了对温室蔬菜根结线虫的控制效果。结果表明,生物熏蒸结合阳光消毒措施处理后2个月,根结线虫数量减少40.8%~49.6%、防治效果达60.3%~68.1%;采摘期增产率达18.5%~22.1%,显著高于生防制剂Sr18的控制效果,但低于熏蒸性杀线虫剂棉隆的控制效果。生物熏蒸结合阳光消毒治理蔬菜根结线虫,具有操作简便、防治效果好、投入产出比高等优点,适宜夏季在北方温室蔬菜上使用。     

臭氧水对茄子根结线虫的防治效果评价

根结线虫是具有毁灭性危害的植物内生寄生虫,臭氧水漫灌土壤是较为理想的替代化学药剂的防治方法,但还未见在茄子上使用的报道。为了探究高浓度臭氧水漫灌处理土壤对茄子根结线虫的田间防治效果及对茄子生长的影响,本研究在茄子定植前对土壤进行连续2次臭氧水(9 mg/L)漫灌处理,并对漫灌处理前后和茄子整个生长期的根结线虫病害发生情况及茄子生长情况进行跟踪调查。结果表明,与对照相比,结果期和生长后期根结线虫数量分别下降91.67%和95.97%;幼苗期、结果期和生长后期的防治效果分别为100%、55.36%和65.52%;处理样本的株高显著提高。因此,高浓度臭氧水漫灌处理土壤对茄子根结线虫的防治效果较好且可减少农药使用量,对茄子生长安全,值得推广应用。     

Factors affecting the efficacy of non-fumigant nematicides for controlling root-knot nematodes

Second-stage juveniles (J2) and egg masses of root-knot nematodes as well as root debris heavily infected by the latter were exposed for different periods of time to six different doses of the nematicides cadusafos and fenamiphos. The efficacy of the nematicides increased significantly with increasing exposure time. Both nematicides were more effective against J2, although they could not provide acceptable control of J2 inside egg masses or heavily galled root debris. The effect of different application strategies on the efficacy and persistence of certain nematicides was also assessed in a field study. Cadusafos, fenamiphos, fosthiazate and oxamyl were applied in field micro-plots either as a single full dose at the time of crop establishment or as multiple reduced-rate applications at 14-day intervals throughout the cropping period, and their efficacy and persistence were determined using bioassays and analytical studies. Fosthiazate was the most efficient nematicide studied, and this was mainly attributed to its long soil persistence. Oxamyl also provided adequate nematode control for the first 48-56 days after its application, regardless of the application method used and its relatively rapid field dissipation. Fenamiphos and cadusafos failed to provide adequate nematode control, although cadusafos was the most persistent of the nematicides tested. The failure of fenamiphos to provide adequate nematode control was mainly attributed to its rapid degradation by soil micro-organisms, which were stimulated after its repeated low-rate application at 14-day intervals. In contrast cadusafos failure was attributed to the inability of the nematicide to reduce nematode populations even at relatively high concentrations in soil.     

Evaluation of chemical and integrated strategies as alternatives to methyl bromide for the control of root-knot nematodes in Greece

Current environmental awareness has led to a greater demand for alternative nematode control strategies. Three field experiments were established to compare management tactics on cucumber in commercial greenhouses naturally infested with root-knot nematodes (Meloidogyne spp). Cucumber rootstocks which have shown resistance to soil-borne diseases were tested to reveal any resistance/tolerance to root-knot nematodes, and integration of these rootstocks with nematicides was investigated. Metham-sodium and 1,3-dichloropropene (1,3-D) provided good control of nematode populations when their application was followed by the application of a non-fumigant nematicide such as cadusafos or oxamyl. Neither fumigant could provide season-long control of nematode populations, and a further application of cadusafos was required for satisfactory control. The efficacy of metham-sodium was significantly increased when injected into soil in comparison with its application through the drip irrigation system. The use of rootstocks resistant to soil-borne fungal pathogens used together with chemical means of nematode control provided promising results for their further use in integrated strategies as alternatives to methyl bromide. However, the latter was the superior treatment for the control of root-knot nematodes in soil infested with residues of galled roots. Dazomet, metham-sodium nor the non-fumigant nematicides oxamyl and fenamiphos could reduce nematode population as efficiently as methyl bromide. None of the chemicals tested except methyl bromide could enter galled roots and kill surviving nematodes.     

Systemic nematicidal activity of fluensulfone against the root-knot nematode Meloidogyne incognita on pepper

BACKGROUND: Fluensulfone, a new nematicide of the fluoroalkenyl group, has proved to be very effective in controlling root‐knot nematodes, Meloidogyne spp., by soil application. The systemic activity of this compound against M. incognita on peppers via soil drenching and foliar spray was evaluated. RESULTS: Root application of fluensulfone via soil drenching showed slight and no nematode control activity when applied 4 and 10 days, respectively, after inoculation. A single foliar spray of peppers with a fluensulfone solution at 3.0 g L^?1 prior to inoculation reduced the galling index by 80% and the number of nematode eggs by 73–82% of controls. The reduction in these parameters by fluensulfone was much higher than that obtained with oxamyl or fenamiphos at the same concentration. This activity was also observed when the plants were sprayed 21 days before inoculation. A series of experiments suggested that foliar spray with fluensulfone prior to inoculation reduces nematode invasion. However, foliar spray after inoculation did not inhibit nematode development inside roots. CONCLUSION: Fluensulfone showed relatively high nematode control activity when sprayed on the foliage before inoculation. Fluensulfone may be used as a foliar application, in addition to soil application, for root‐knot nematode control. Copyright © 2011 Society of Chemical Industry     

Chemical Control of Heterodera rostochiensis Woll.1)

In Dutch field experiments with Heterodera rostochiensis Woll. systemic nematicides at low and high nematode densities resulted in unfavourable cost/ benefit relations, as compared to other control procedures; on average, a 50 % reduction of the maximum multiplication of the nematode was observed. In England, better results were obtained at high nematode densities when higher dosages of nematicides were worked into the soil at a depth of 15 cm. In order to obtain a better effect of the mostly used contact nematicide DD-mixture at a moderate dosage, a special treatment of the soil surface with the non-fumigant dazomet was combined with the fumigation. On clay soil more than 99 % kill of stem nematodes was obtained with 30 g dazomet + 50 ml DD-mixture per m When 10 g dazomet was added a 80% kill of Rolylenchus uniformis (Thorne) could be obtained on sandy soil; this was equivalent to 2 applications of the DD-mixture alone. The combined treatment offers the great advantage of increasing the chances by 3 times to make the appropriate choice of the year for the treatment. Eggs of R. uniformis and H. rostochiensis are less susceptible to DD-mixture than free living larvae and adults.     

不同杀线剂对小麦孢囊线虫病的防治效果

小麦孢囊线虫病目前已在中国13个省(市区)的小麦种植区有发生与分布,其扩散与蔓延将直接威胁我国的粮食生产和经济安全,系统开展小麦孢囊线虫病的防治研究迫在眉睫.本文在大田条件下研究了5％涕灭威颗粒剂(aldicarb)、3％克百威颗粒剂(carbofuran)、5％硫线磷颗粒剂(cadusafos)、10％苯线磷颗粒剂(fenamiphos)和0.5％阿维菌素颗粒剂(abamectin)等5种杀线剂各3个不同剂量在小麦返青期使用对小麦孢囊线虫病的控制效果.结果表明,各药剂处理均对土壤中孢囊线虫的繁殖有明显的抑制作用,但各处理间的校正孢囊减退率差异并不显著;不同药剂处理后的小麦株高、单株根重和单株鲜重均优于对照,且小麦产量与对照相比均有增加.其中0.5％阿维菌素颗粒剂 30 kg/hm2处理后的校正孢囊减退率最大值为55.13％,且增产效果最好,增产率为18.54％;而0.5％阿维菌素颗粒剂60 kg/hm2处理后小麦株高平均值最大,为59.32 cm,促进植物生长的效果明显.由于0.5％阿维菌素颗粒剂能够明显抑制土壤中孢囊线虫的繁殖,同时促进植株生长并减少产量损失,因此,在小麦孢囊线虫重病田于小麦返青期施用0.5％阿维菌素颗粒剂30 kg/hm2进行土壤处理,可在一定程度上减轻小麦孢囊线虫造成的损失.     

不同覆盖方式对新疆棉田土壤温度和水分的影响

土壤温度和水分是棉花生长的重要环境因子,通过测定不同覆盖下土壤温度的变化发现,覆膜对土壤的增温效应主要表现在棉花生长前期,5月份不同程度的覆膜可使土壤温度增加0.9～2.3℃,秸秆覆盖土壤温度比无覆盖情况低3.6～6.5℃.土壤温度最大日变幅与深度可拟合成对数函数关系,且两者间有很好的相关性.在整个观测过程中秸秆和地膜覆盖对土壤都有很好的保水作用,窄膜、宽膜、全膜以及秸秆覆盖条件下土壤含水量较之裸露地可分别提高0.15%～5.01%,0.19%～5.26%,1.34%～7.71%和0.47%～4.55%.但是,覆盖秸秆在棉花的生长过程中对株高几乎没有提高作用,而不同面积的覆膜对棉花株高均有显著的促进作用.     

Effects of emitter discharge rates on soil salinity distribution and cotton(Gossypium hirsutum L.) yield under drip irrigation with plastic mulch in an arid region of Northwest China

A field experiment was carried out to investigate the effects of different emitter discharge rates under drip irrigation on soil salinity distribution and cotton yield in an extreme arid region of Tarim River catchment in Northwest China.Four treatments of emitter discharge rates,i.e.1.8,2.2,2.6 and 3.2 L/h,were designed under drip irrigation with plastic mulch in this paper.The salt distribution in the range of 70-cm horizontal distance and 100-cm vertical distance from the emitter was measured and analyzed during the cotton growing season.The soil salinity is expressed in terms of electrical conductivity(dS/m) of the saturated soil extract(EC e),which was measured using Time Domain Reflector(TDR) 20 times a year,including 5 irrigation events and 4 measured times before/after an irrigation event.All the treatments were repeated 3 times.The groundwater depth was observed by SEBA MDS Dipper 3 automatically at three experimental sites.The results showed that the order of reduction in averaged soil salinity was 2.6 L/h > 2.2 L/h > 1.8 L/h > 3.2 L/h after the completion of irrigation for the 3-year cotton growing season.Therefore,the choice of emitter discharge rate is considerably important in arid silt loam.Usually,the ideal emitter discharge rate is 2.4-3.0 L/h for soil desalinization with plastic mulch,which is advisable mainly because of the favorable salt leaching of silt loam and the climatic conditions in the studied arid area.Maximum cotton yield was achieved at the emitter discharge rate of 2.6 L/h under drip irrigation with plastic mulch in silty soil at the study site.Hence,the emitter discharge rate of 2.6 L/h is recommended for drip irrigation with plastic mulch applied in silty soil in arid regions.     

Effects of biodegradable mulch on soil water and heat conditions,yield and quality of processing tomatoes by drip irrigation

To combat the problem of residual film pollution and ensure the sustainable development of agriculture in oasis areas, a field experiment was carried out in 2019 at the Wuyi Farm Corps Irrigation Center Test Station in Urumqi, Northwest China. Four types of biodegradable mulches, traditional plastic mulchs and a control group (bare land; referred to as CK) were compared, including a total of six different treatments. Effects of mulching on soil water and heat conditions as well as the yield and quality of processing tomatoes under drip irrigation were examined. In addition, a comparative analysis of economic benefits of biodegradable mulches was performed. Principal component analysis and gray correlation analysis were used to evaluate suitable mulching varieties for planting processing tomatoes under drip irrigation. Our results show that, compared with CK, biodegradable mulches and traditional plastic mulch have a similar effect on retaining soil moisture at the seedling stage but significantly increase soil moisture by 0.5%-1.5% and 1.5%-3.0% in the middle and late growth periods (P<0.050), respectively. The difference in the thermal insulation effect between biodegradable mulch and plastic mulch gradually reduces as the crop grows. Compared with plastic mulch, the average soil temperature at 5-20 cm depth under biodegradable mulches is significantly lowered by 2.04°C-3.52°C and 0.52°C-0.88°C (P<0.050) at the seedling stage and the full growth period, respectively, and the water use efficiency, average fruit yield, and production-investment ratio under biodegradable mulches were reduced by 0.89%-6.63%, 3.39%-8.69%, and 0.51%-6.33% (P<0.050), respectively. The comprehensive evaluation analysis suggests that the black oxidized biological double-degradation ecological mulch made from eco-benign plastic is the optimal film type under the study condition. Therefore, from the perspective of sustainable development, biodegradable mulch is a competitive alternative to plastic mulch for large-scale tomato production under drip irrigation in the oasis.     

Nematicidal efficacy of MCW‐2, a new nematicide of the fluoroalkenyl group,against the root‐knot nematode Meloidogyne javanica

BACKGROUND: The small number of available nematicides and restrictions on the use of non‐fumigant nematicides owing to high toxicity to human and non‐target organisms hinder effective nematode control. The nematicidal efficacy of MCW‐2, a new nematicide of the fluoroalkenyl group, was evaluated against the root‐knot nematode Meloidogyne javanica (Treub.) Chitwood. RESULTS: MCW‐2 showed irreversible nematicidal activity against second‐stage juveniles of M. javanica in vitro, following exposure for 48 h at concentrations as low as 0.5 mg L^?1, in contrast to fenamiphos or cadusafos. When exposed to MCW‐2 for shorter periods, motile juveniles became immobile with time after rinsing in water. MCW‐2 at 8 mg L^?1 inhibited nematode hatching, which, however, recovered after rinsing in water. In pot and plot experiments, 0.5 mg MCW‐2 L^?1 soil and 2 kg MCW‐2 ha^?1, respectively, controlled M. javanica similarly to or better than fenamiphos or cadusafos at the same concentrations or at their recommended doses. In the soil, the nematicidal activity of MCW‐2 was less persistent than that of fenamiphos. CONCLUSION: MCW‐2 has potential to be used as a new non‐fumigant nematicide that probably has a novel mode of action. Copyright © 2009 Society of Chemical Industry     

Management of the yellow beet cyst nematode with crop rotation,soil fumigation and granular nematicides

A trail field was managed for six years to test effects of short crop rotations, soil fumigation and granular nematicides on the population dynamics of the yellow beet cyst nematode (Heterodera trifolii f. sp.beta) and sugar-beet yields.In the two-year rotation, the cyst nematode population before planting varied from about the tolerance level (5 eggs per millilitre of soil) to 25 eggs per millitlitre of soil, leading to losses of sugar yield. Soil fumigation with metam-sodium effectively reduced the nematode density before planting, resulting in a 15 and 25% increase in sugar yield in the first two crops, respectively, but was insufficient to protect the third sugar-beet crop from yield-reducing nematode attack. This was attributed to the wet soil at the time of application and accelerated disappearence of the chemical in the soil through biological adaptation to repeated fumigation. Oxamyl or aldicarb granular nematicides applied as a side-dressing to the rows had insufficient effect to protect the sugar-beet from yield-reducing nematode attack. An overall treatment with aldicarb rotavated into the soil, alone and in addition to soil fumigation, increased sugar yield significantly. However in the two-year rotation, yield of the third sugar-beet crop treated with soil fumigation and granular nematicide was still lower than that of the untreated second crop in the three-year rotation.In the three-year rotation, thecyst nematode population before sugar-beet varied from hardly detectable to about the tolerance level. Here sugar-beet could be protected from yield-reducing nematode attack by soil fumigation or an overall treatment with granular nematicide. In the threeyear rotation with soil fumigation an increase ofRhizoctonia crown rot was observed in the second sugar-beet crop.Samenvatting Om de effecten na te gaan van korte rotaties, grondontsmetting en nematicide granulaten op het populatieverloop van de gele bietcystenematode (Heterodera trifolii f.sp.beta) en de opbrengsten van suikerbieten werd gedurende zes jaren een proef uitgevoerd op een natuurlijk besmet perceel van de proefboerderij Vredepeel.In de tweejarige rotatie variëerde de cystenematodepopulatie vóór het bietegewas boven de schadedrempel, wat resulteerde in verlaging van de suikeropbrengst. Grondontsmetting met metam-natrium veroorzaakte een effective vermindering van de dichtheid van de nematoden vóór de bieten en een verhoging van de suikeropbrengst van respectievelijk 15 en 25% bij de eerste twee gewassen, maar was onvoldeende om het derde bietegewas te beschermen tegen een opbrengst verminderende aantasting door nematoden. Dit was een gevolg van natte bodemomstandigheden bij het injecteren en het versneld verdwijenen van het middel door biologische adaptatie van de grond na herhaalde ontsmetting. Nematicide granulaten (oxamyl of aldicarb) naast de rij toegepast hadden onvoldoende effect om de bieten te beschermen tegen een opbrengstverminderende aantasting door nematoden. Een volvelds toepassing van in de grond gefreesde aldicarb alleen en toegevoegd na grondontsmetting verhoodge de suikeropbrengst beduidend. De opbrengst van het derde suikerbietegewas in de tweejarige rotatie was echter na toepassing van grondontsmetting en nematicide granulaten nog beduidend lager dan die van het onbehandelde tweede suikerbietegewas in de driejarige rotatie.In de driejarige rotatie variëerde de cystenematodepopulatie vóór het bietegewas van nauwelijks aantoonbaar tot nabij de tolerantiegrens. Hier kon het suikerbietegewas worden beschermd tegen een eventueel opbrengst verminderende nematodenaantasting door grondontsmetting of volveldstoepassing van nematicide granulaten.