Efficiency of food utilization by Dichroplus maculipennis (Orthoptera: Acrididae: Melanoplinae) on four crop plants under controlled conditions

The aim of this study was to analyze the food utilization efficiencies and the relative growth and consumption rates of different developmental stages and sexes of D. maculipennis under controlled conditions on wheat, oat, corn, and soybean plants, important crops in the Pampas region of Argentina. As expected from a polyphagous species, D. maculipennis was observed to consume all four of the plant species offered. Nevertheless, the consumption of both nymphs and adults was differentiated. Oat and wheat were more consumed than corn and soybean. Females presented higher consumption rates (384.6 ± 30.64 mg/individual/day) than males (278.71 ± 24.26 mg/individual/day). Adult females had the highest growth rate, followed by nymphs of the same sex, and then adult males. The highest values of ECI and ECD were obtained in soybean; females had higher values of food efficiencies than males, and nymphs had greater values than adults. In relation to this, soybean was the highest quality food; the amount of nitrogen present in soybean was approximately twice that found in the other species. The nutritional needs of D. maculipennis might have been satisfied by feeding on low quantities of soybean, which is, among the food offered, the most “nutritionally balanced food”.     

Antennal sensilla of grasshoppers (Orthoptera: Acrididae) in relation to food preferences and habits

The external structure, i.e. number and distribution of sensillae on male and female antennae of 12 species of grasshoppers belonging to Pamphaginae, Catantopinae, Oedipodinae and Gomphocerinae in the grasslands of Inner Mongolia was investigated using scanning electron microscopy. Five major types of antennal sensillae were detected - trichoid, long basiconic, short basiconic, slender and short basiconic, and coeloconic sensillae. Total number of antennal sensillae varied among different sexes, subfamilies, feeding groups, life forms and eco-forms. Males showed significantly more sensillae than females, due to presence of more short basiconic and coeloconic sensillae. Species under Catantopinae showed more long basiconic sensillae than the others. The Oedipodinae had the highest number of slender and short basiconic sensillae and coeloconic sensillae, followed by Catantopinae and Gomphocerinae; while Pamphaginae had the fewest. The total number of sensillae showed the same trend for these two types amongst the subfamilies as well, species which prefer habits on the ground possessed fewer antennal sensillae than species which prefer to stay on plants. The maximal number of antennal sensillae were observed in hygrophytous species,Chorthippus albomarginatus, in the 12 grasshopper species investigated, although the data is not statistically significant. The general trend which emerged was that species feeding on grass possessed more antennal sensillae, particularly coeloconic sensillae, compared to other feeding group species.     

Postembryonic development, fecundity and food consumption of Dichroplus exilis (Orthoptera: Acrididae) under controlled conditions

Dichroplus exilis is a widely distributed species in Southern South America. Although there have been reports of D. exilis as an agricultural pest, some recent observations suggest that the damage attributed to D. elongatus may actually have been caused by D. exilis. This study was conducted to determine the postembryonic life cycle stages, fertility and food consumption of this species under controlled conditions (30 degrees C, 14L-10D, 40% RH). Individuals employed belong to the laboratory-hatched first generation (F1), from adults (n = 64, female = 28, male = 36) collected in natural grasslands near Rafaela, Santa Fe province in North-Eastern Argentina. Three cohorts of 16, 17 and 20 individuals were monitored independently in acetate tubes on a daily basis, until death of the last insect. Average fecundity was 381.84, 38.54 eggs per female. Egg-pod incubation time was 14.4, 1.08 days and six nymphal instars were recorded. Nymphal development time was 41.38, 0.71 days (I = 8.73, 0.20; II = 6.38, 0.24; III = 5.64, 0.33; IV = 7.15; 0.43; V=9.76, 0.54; IV = 7.85, 0.95). The recorded food consumption was 9.89, 1.08 (mg/ind/day) for nymphs IV, 18.04, 0.73 (mg/ind/day) for nymphs V-IV, 16.76, 1.06 (mg/ind/day) for pre-reproductive males, 28.09, 1.81 (mg/ind/day) for pre-reproductive females, 7.71,0.91 (mg/ind/day) for reproductive males and 13.06, 0.71 (mg/ind/day) for reproductive females, while the average adult food consumption, regardless of sex and reproductive status, was 16.41, 4.32 mg/day. Average food consumption of adult females was 17.47, 1.15 mg, and was significantly higher than that of males (10.83, 0.91mg). Data obtained in this study showed that D. exilis exhibits at least some of the biological attributes needed to configure an actual or potential agricultural pest, albeit not yet recognized as such. Field monitoring of grasshopper communities in areas where damage by D. exilis is suspected is envisaged in order to determine its possible status as a pest.     

Survival and fecundity of Dichroplus maculipennis and Ronderosia bergi (Orthoptera: Acrididae: Melanoplinae) following infection by Beauveria bassiana (Ascomycota: Hypocreales) under laboratory conditions

This study examined the effects of strain Beauveria bassiana (LPSC 1067) on nymphal development time, fecundity and adult survival in Dichroplus maculipennis and Ronderosia bergi under laboratory conditions. It was observed that infection with 1×10³ conidia/ml altered nymphal development time, fecundity and adult survival in both species. Mortality of D. maculipennis during third through the last instar (sixth) was significantly higher among treated nymphs (66±3.8%) than in controls (15±1.7%). Similarly, mortality in R. bergi during third through the last instar (fifth) was higher in treated nymphs (71±2.8%) than in controls (19±1.5%). Nymphal development times of both infected D. maculipennis and R. bergi were longer than controls. On the other hand, among survivors of both the species, control adults lived longer than infected adults. Finally, control grasshoppers of both species were much more successful reproductively than infected grasshoppers.     

Use of entomopathogenic fungi combined with biorational insecticides to control Dichroplus maculipennis (Orthoptera: Acrididae: Melanoplinae) under semi-field conditions

Grasshoppers are among the invertebrate herbivores that cause most economic losses in grasslands throughout Argentina’s Pampas and parts of Patagonia. Chemical insecticides remain the sole option for grasshopper control in this area, despite being of significant environmental concern. Our aim was to evaluate the efficacy of combinations between three entomopathogenic fungi strains (Beauveria bassiana LPSc 1067 and LPSc1082), and Metarhizium anisopliae (LPSc 907), two biorational insecticides (luphenuron and methoxyfenozide), and a new synthetic chemical pesticide (rynaxypyr) in the control of the pest grasshopper Dichroplus maculipennis under field cage conditions. Fungal strains used were adjusted to 1 × 10⁸, 1 × 10⁶ and 1 × 10⁴ conidia/ml. Insecticides were tested at three concentrations: the average concentration recommended for application in the field (100%), 50% of that level and finally 25%. Combinations of the insecticides with B. bassiana (LPSc 1067, LPSc 1082) and M. anisopliae (LPSc 907) caused higher mortality to D. maculipennis nymphs than any of the individual agents used alone. The three insecticides tested did not negatively affect the isolates of the two species of entomopathogenic fungi employed.     

Response of grasshoppers (Orthoptera: Acrididae) to livestock grazing in southeastern Arizona: differences between seasons and subfamilies

Summary Grasshopper densities were compared between grazed and ungrazed semidesert grassland sites in southeastern Arizona. Bouteloua-dominated perennial grass cover was about 1.5 times greater on the livestock exclosure. Grasshoppers were 3.7 times more abundant on the protected area in the summers of 1983 and 1984, when dominant species were grass-feeding members of the subfamily Gomphocerinae. In fall 1984, grasshoppers were 3.8 times more common on the grazed site, when dominants were mainly herb-feeders in the subfamily Melanoplinae. These results indicate important seasonal and taxonomic differences in the responses of grasshoppers to the activities of vertebrate grazers.     

Postembryonic development and food consumption of Dichroplus elongatus Giglio-Tos and Dichroplus maculipennis (Blanchard) (Orhtoptera: Acrididae: Melanoplinae) under laboratory conditions

Dichroplus maculipennis (Blanchard) and D. elongatus Giglio-Tos are two of the most important melanoplines in Argentina, both ecologically and economically. The postembryonic development and forage loss (consumption of Bromus brevis Ness + fallen material) caused by older nymphs (instars IV, V, VI) and adults of both species were studied under controlled conditions (30oC, 14L:10D, 40% RH). Five nymphal instars were recorded in D. elongatus, and six in D. maculipennis. Total nymphal development was similar in both species (D. elongatus: 32 ± 0.70 days; D. maculipennis: 34.5 ± 0.37 days). Daily consumption increased from nymphal instars to pre-reproductive adult stage. In both species, pre-reproductive females had higher consumption rates than other stages considered (D. elongatus: 30.6 ± 0.56 mg dry weight/day; D. maculipennis: 48.7 ± 0.74 mg dry weight/day). In the reproductive stage, consumption decreased significantly in both sexes. When feeding, D. maculipennis let some plant material to drop, increasing total loss. The percentage of fallen material was greater in reproductive adults, representing 3.9% and 2.9% of the total daily loss for males and females, respectively. Females and males of D. maculipennis were heavier than those of D. elongatus (P < 0.05), and daily consumption was significantly higher (P < 0.05). Regardless sex and reproductive status, adults of D. maculipennis consumed 29.1 ± 0.64 mg dry weight/day on average, while one of D. elongatus 20.0 ± 0.3 mg dry weight/ day.     

Exogenous Nitrate as a Terminal Acceptor of Electrons in Rice (Oryza sativa) Coleoptiles and Wheat (Triticum aestivum) Roots under Strict Anoxia

To elucidate the physiological role of exogenous nitrate under anaerobic conditions, we studied the effect of 10 mM KNO₃ on the mitochondrial ultrastructure in rice (Oryza sativa L.) coleoptiles and in wheat (Triticum aestivum L.) roots, detached from four-day-old seedlings, under strict anoxia. In wheat roots, following 6-h-long anoxia in the absence of exogenous nitrate, the mitochondrial membranes were partially degraded and, after 9 h under anoxia, the mitochondrial membranes and the membranes of other organelles were completely destroyed. In rice coleoptiles, the partial membrane degradation was observed only after 24 h and their complete breakdown after 48 h of anaerobiosis. In the presence of exogenous nitrate, no membrane destruction was noticed even after 9 and 48 h of anaerobiosis in wheat roots and rice coleoptiles, respectively. These results indicate that exogenous nitrate exerts protective action as a terminal electron acceptor, alternative to the molecular oxygen. Our findings are compared with the results of other researchers concerning the adverse or favorable nitrate action on plant growth, metabolism, and energy status under anaerobic stress.     

Infectivity,viability and effects of Paranosema locustae (Microsporidia) on juveniles of Dichroplus maculipennis (Orthoptera: Acrididae: Melanoplinae) under laboratory conditions

Infectivity and effects on host of a long-term stored aqueous suspension of Paranosema locustae on juveniles of Dichroplus maculipennis, a pest grasshopper in parts of the Pampas and Patagonia, were evaluated. Infections developed in 90–97.8% of treated individuals. Mortality increased with time, reaching highest values at 30–40 days post-inoculation (79.5–100%). Infected nymphs showed significantly slower development.     

氟虫脲对东亚飞蝗和中华稻蝗几丁质合成酶基因表达的影响

为了探讨氟虫脲可能的作用靶标及毒性机制, 本研究以重要农业害虫东亚飞蝗Locusta migratoria manilensis (Meyen)和中华稻蝗Oxya chinensis (Thunberg)为材料, 采用简并引物扩增中华稻蝗几丁质合成酶1基因（OcCHS1）的部分cDNA序列; 以氟虫脲浸渍法处理2龄中期中华稻蝗及1, 2和3龄东亚飞蝗若虫为处理组, 丙酮处理为对照组, 使用RT-PCR和实时荧光定量PCR方法分析氟虫脲对蝗虫几丁质合成酶基因mRNA表达的影响。结果获得的OcCHS1部分cDNA序列, 其长度为312 bp, 编码104个氨基酸, GenBank登录号为HM214491, 与东亚飞蝗几丁质合成酶1基因（LmCHS1）在氨基酸水平上相似度达95％。RT-PCR结果显示, 处理组几丁质合成酶1扩增带均强于对照组。实时荧光定量PCR结果表明: 与对照组相比, 处理组中华稻蝗2龄中期若虫OcCHS1 mRNA表达提高了1.02倍, 东亚飞蝗1, 2, 3龄若虫LmCHS1 mRNA表达分别提高了34%, 82%和89%, 差异显著（P<0.05）。分析基因表达提高的原因是几丁质合成受阻后基因表达水平的一种代偿性增加, 由此推测几丁质合成酶可能是氟虫脲作用的靶标之一。     

黑河上游天然草地蝗虫物种丰富度与地形关系的GAM分析

地形差异性导致的环境异质性为小尺度范围内生物空间格局的形成与维持提供了一种重要机制, 是形成物种丰富度差异性的前提条件。借助GIS和S-PLUS软件, 利用广义可加模型(GAM)于7-8月对影响蝗虫分布的地形因子进行了研究, 在定量分析黑河上游祁连山区北坡地形的海拔分异特征的基础上研究了该区域蝗虫的丰富度与地形复杂度的关系。结果表明： 在36个样方中共采集蝗虫3 149头, 隶属于3科10属13种; 蝗虫丰富度受地形因子影响的顺序为海拔＞坡向＞坡度＞剖面曲率＞平面曲率＞坡位; 蝗虫的分布在平面曲率和剖面曲率各个梯度上的分布比较均衡, 在海拔、 坡向以及坡位的每个梯度上呈二次抛物线分布, 坡度上呈递减趋势; 从分布的区域上来看, 蝗虫在整个区域都有较高的丰富度, 但主要分布在海拔2 600~2 700 m区域, 坡向上则主要集中在西北坡和西坡, 与实际观测情况相一致。蝗虫丰富度与地形因子之间的相互关系以及分布状态, 反映了地形因子对水热条件的重分配使蝗虫分布格局出现多元化以及破碎化。     

内蒙古天然草原不同放牧压力下亚洲小车蝗的食性及营养生态位（英文）

植物表皮蜡质中的饱和链烷作为内源指示剂广泛用于评价放牧家畜的食性和食量, 但用于天然草原蝗虫食性的评价研究较少。为了探讨天然草原蝗虫的食性及其生态位变化, 本研究以内蒙古天然草原为研究对象, 于2003年7-8月沿降水梯度选择3种典型植物群落（小针茅Stipa klemenzii、 羊草Leymus chinensis和大针茅Stipa grandis群落）, 在每个植物群落不同放牧压力下小区随机做20个植被样方, 样方内植物齐地面刈割, 测定其地上生物量和物种多样性, 取主要植物种测定其链烷模式, 同时采集放牧小区优势蝗虫种亚洲小车蝗Oedaleus asiaticus的粪便, 测定其链烷模式, 运用链烷技术评价蝗虫的食性及其营养生态位。结果表明： 不同植物群落中优势牧草种类及其比例不同, 其链烷模式存在种间差异, 链烷技术可以评价亚洲小车蝗的食性。亚洲小车蝗的食性在不同植物群落及不同放牧压力下存在显著的差异, 在羊草和大针茅群落中, 亚洲小车蝗是禾草采食者, 主要采食羊草和糙隐子草Cleistogenes squarrosa, 且与绵羊的营养生态位重叠指数较低, 分别为0.0619和0.0172; 在小针茅群落中亚洲小车蝗是杂类草采食者, 主要采食无芒隐子草Cleistogenes songorica、 猪毛菜Salsola collina和小针茅, 且与绵羊的营养生态位重叠指数较高, 达到0.1815。因此, 放牧不仅改变了群落的植物种类组成, 而且直接影响了亚洲小车蝗的食物组成, 二者对食物资源利用存在一定程度的竞争。     

印度四种蝗科农业害虫的取食量定量测定及据此推测的亲缘关系

【目的】害虫的取食潜力反映了其生态学和经济学特性,这些知识有助于扩展其控制措施。能否将害虫物种按亲缘关系的远近进行分组,对它们在发育或成熟期的取食量进行定量排序？了解不同害虫种类的取食模式有助于这一问题的解答。 【方法】对印度4种蝗科农业害虫--等岐蔗蝗Hieroglyphus banian (Fab.), 暗翅剑角蝗Acrida exaltata (Walk.), 中华板胸蝗Spathosternum prasiniferum prasiniferum (Walk.) 和 Oxya fuscovittata (Mars.)的取食量进行了定量测定,估测了4种害虫雌雄各若虫龄期及整个成虫期的每日取食量和总取食量。【结果】基于其多食性特征和存在多种食物来源的情况,所有测试中均只提供最为偏好的寄主植物。在研究的4种害虫中,观察到相同的取食率模式,取食率随着若虫龄期的增加而逐步增加。4种害虫的雌虫取食量均显著高于雄虫,且成虫期害虫的取食量显著高于幼期。各龄若虫和成虫的取食量与对应的若虫或成虫历期明显相关。就整个生活期的取食量和平均存活率而言,暗翅剑角蝗A. exaltata 和中华板胸蝗S. pr. prasiniferum 的亲缘关系比其他两种昆虫略近。就整个生活期的取食量和平均存活率而言,单化性害虫（等岐蔗蝗H. banian）和二化性害虫（暗翅剑角蝗A. exaltata) 比另外两种近缘的多化性害虫（中华板胸蝗S. pr. prasiniferum 和 O. fuscovittata）的亲缘关系更近一些。【结论】寿命长的物种(每年可完成1~2个世代)在取食潜力方面比寿命短的物种（每年完成2代以上的世代）更具有可比性。通过对多个不同化性的害虫物种的研究,使我们在这方面能达到更全面的认识。     

Variation in diapause potential and strength in eggs of the Australian plague locust, Chortoicetes terminifera (Walker) (Orthoptera: Acrididae)

Samples of eggs of Chortoicetes terminifera were incubated under 3 temperature regimes which would allow non-diapause eggs to develop about 50% and so take them beyond the diapause stage. Even so, many more eggs entered diapause when reared at 20°C for 3 weeks than at 32°C for 1 week. By collecting and incubating eggs at intervals after laying in autumn, diapause potential or strength of eggs at different stages of development was estimated. For eggs in pre-diapause, the proportion in diapause after rearing was used to estimate diapause “potential”; for those in diapause, the proportion was used to estimate diapause “strength”. At laying, eggs varied greatly in their potential to enter diapause. However, those with lower potential at laying often increased their potential during the pre-diapause stage so that by the time diapause was reached diapause strength varied but over a lesser range. In all eggbeds, diapause strength decreased by 7–9 weeks after laying; little or none remained by mid-winter.These variations in diapause potential and diapause strength seem to reflect how much the temperature threshold for development during diapause is increased above that for non-diapause. Both diapause potential and strength may reflect the value of some factor whose level at laying is determined by the environment experienced by the parents but which changes subsequently.     

Comparison of an Organophosphate Insecticide with a Mycoinsecticide for the Control of Oedaleus senegalensis (Orthoptera: Acrididae) and Other Sahelian Grasshoppers at an Operational Scale

Operational scale field trials were conducted in 1996 and 1997, in the east of the Niger Republic, on 50 and 800 hectare plots, to compare the efficacy of an oil based formulation of the entomopathogenic fungus, Metarhizium anisopliae (flavoviride) var. acridum (Deuteromycotina: Hyphomycetes) with fenitrothion for the control of Sahelian grasshoppers. The Senegalese Grasshopper Oedaleus senegalensis Krauss was the most abundant species in the trials. M. anisopliae was applied at 5 x 1012 spores ha-1 at volume application rates of 2 and 0.5 l ha-1 in successive years. Fenitrothion was applied at 220 g/ha-1 at 1.25 and 0.22 l ha-1 volume application rates. Ultra low volume equipment mounted on a vehicle (1996) or a fixed wing aircraft (1997) was used for application. The M. anisopliae treatment reduced the grasshopper population significantly after 7 days and by 93% within 16 days. Fenitrothion caused a population reduction of more than 90% shortly after application, but due to immigration, the grasshopper population recovered to the initial level within 16 days. Grasshoppers treated with the fungus and given the opportunity to thermoregulate in the sun died more slowly than grasshoppers incubated in the shade. The survival of spores in the spray residue of the M. anisopliae plots assessed by exposing grasshoppers to the sprayed vegetation at intervals and monitoring disease levels during subsequent laboratory incubation, showed the spray residue to remain highly infective, for three weeks after spraying. At the end of the 1997 season, egg pod density and viability in the plot treated with the fungus was reduced compared with both untreated and the fenitrothion plots. Compared with the existing practice of large-scale treatment of grasshopper infestations with fenitrothion, use of M. anisopliae would not only be safer to mammals and less damaging to non-target organisms, but also be more effective in the long-term control of grasshoppers.     

Causation, fitness effects and morphology of macropterism in Chorthippus parallelus (Orthoptera: Acrididae)

ABSTRACT. 1. Chorthippus parallelus (Zett.) displays an apparent'flight polyphenism'despite the fact that macropterous individuals cannot fly.
2. Photoperiod is used as an environmental cue controlling the polyphenism: long day lengths increasing the proportion of macropterous adults.
3. Macropterous females start mating when older and are less fecund than brachypters.
4. In contrast to other studies the response may not be due to cues associated with a reduced environmental quality and we speculate that macropterism is not a dispersal mechanism in the Gomphocerinae.     

The effects of temperature and moisture on the inception of diapause in eggs of the Australian plague locust,Chortoicetes terminifera Walker (Orthoptera: Acrididae)

Chortoicetes terminifera lays a mixture of diapause and non-diapause eggs during the autumn months of March and April. Diapause eggs cease development in late anatrepsis when kept in moist soil at 32.5°C. These conditions favour rapid embryogenesis and hatching in non-diapause eggs. Significant reductions in the incidence of diapause were obtained when newly-laid eggs were kept for 40 days at either 15.5°C or 32.5°C in conditions that prevented the uptake of water. In eggs held for a similar period in moist soil at 15.5°C, diapause was virtually eliminated. These eggs did not develop to the stage at which water uptake occurs. It is suggested that the inception of diapause is dependent upon the occurrence of warm, moist conditions at the time of laying and that these requirements are an integral part of the overall inductive process, which also involves the temperature and photoperiod at which the parent insects are reared. A flow-diagram illustrating the development of diapause eggs in relation to temperature and moisture is discussed in relation to the survival of the species.     

Perceptual,developmental, experiential,and physiological parameters of swimming in Melanopline grasshoppers (Orthoptera: Acrididae)

The roles of perception, development, experience, and physiology on the swimming behavior of grasshoppers in an arena were investigated usingMelanoplus bivittatus, M. differentialis, andM. sanguinipes. The parameters of swimming included capacity (the ability to reach the edge of a 45-cm-diameter water basin within 3 min), net displacement time (time required to reach the edge of the arena), and orientation (ability to make initial contact with a target pattern).Melanoplus sanguinipes adults were most attracted to a vertical rectangle set at 90° to the water surface (the standard target). Orientation ability decreased significantly as the target became square or it declined to 60°, and there was virtually no orientation to horizontal patterns or those at 45°. All nymphal instars ofM. sanguinipes exhibited the capacity to swim and orient to a standard target. Although the net displacement time was lowest from the third instar through the adult stages, the earlier instars (first through fourth) had the greatest relative net displacement rates. As adults aged, their net displacement time and orientation ability declined significantly, particularly in males. BothM. differentialis andM. sanguinipes adults showed a decline in net displacement time over a 10-day trial period. The loss of a hind leg did not significantly alter swimming performance of eitherM. bivittatus orM. sanguinipes adults, but this alteration significantly reduced the net displacement time ofM. differentialis. DecerebratedM. differentialis adults were capable of swimming for several minutes.     

Development, growth, and egg production of Ageneotettix deorum (Orthoptera: Acrididae) in response to spider predation risk and elevated resource quality

Abstract.  1. Predation risk to insects is often size- or stage-selective and usually decreases as prey grow. Any factor, such as food quality, that accelerates developmental and growth rates is likely to reduce the period over which prey are susceptible to size-dependent predation.
2. Using field experiments, several hypotheses that assess growth, development, and egg production rates of the rangeland grasshopper Ageneotettix deorum (Scudder) were tested in response to combinations of food quality and predation risk from wolf spiders to investigate performance variation manifested through a behaviourally mediated path affecting food ingestion rates.
3. Grasshoppers with nutritionally superior food completed development ≈ 8–18% faster and grew 15–45% larger in the absence of spiders, in comparison with those subjected to low quality food exposed to spider predators. Growth and development did not differ for grasshoppers feeding on high quality food when predators were present in comparison with lower quality food unimpeded by predators. Responses indicated a compensatory relationship between resource quality and predation risk.
4. Surviving grasshoppers produced fewer eggs compared with individuals not exposed to spiders. Because no differences were found in daily egg production rate regardless of predation treatment, lower egg production was attributed to delayed age of first reproduction. Results compare favourably with responses observed in natural populations.
5. Risk of predation from spiders greatly reduced growth, development, and ultimately egg production. Increased food quality counteracts the impact of predation risk on grasshoppers through compensatory responses, suggesting that bottom-up factors mediate effects of spiders.     

Importance of dietary nitrogen and carbohydrates to survival, growth, and reproduction in adults of the grasshopper Ageneotettix deorum (Orthoptera: Acrididae)

Key demographic traits in insect herbivores (survival, growth, and egg production) are often responsive to variation in diet quality, especially to dietary nitrogen (N) levels. Soluble carbohydrates may also be limiting. Using defined diets under controlled laboratory conditions, we examined survival, growth, and egg production in response to a range of diet qualities in adult females of a grass-feeding grasshopper Ageneotettix deorum (Scudder). Diets varied factorially within naturally occurring ranges of total N (1–7%) and carbohydrate (4–27%) levels. N concentrations significantly impacted weight gain, egg production rate, the elapsed time until the first egg pod, and the time between the first and second egg pod. These responses were typically quadratic in nature with a maximum response near 4–5% total N. The rate of pod production rather than number of eggs per pod best explained changes in reproductive rate. Dietary carbohydrate levels seldom exerted a significant impact on demographic parameters except when interacting with N on survival, egg weight, and the period between egg pods. Clearly, factors that alter the availability of quality diet, especially total N levels, can contribute to demographic responses in A. deorum. Received: 5 August 1996 / Accepted: 26 April 1997