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Digitale Medien

Performance and allocation patterns of the perennial herb, Plantago lanceolata, in response to simulated herbivory and elevated CO2 environments (1991)

Fajer, E. D. ; Bowers, M. D. ; Bazzaz, F. A.

Springer

Oecologia 87 (1991), S. 37-42

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ISSN: 1432-1939

Schlagwort(e): Allocation ; Compensatory growth ; Defoliation ; Reproductive effort ; Seed quality

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Summary We tested the prediction that plants grown in elevated CO2 environments are better able to compensate for biomass lost to herbivory than plants grown in ambient CO2 environments. The herbaceous perennial Plantago lanceolata (Plantaginaceae) was grown in either near ambient (380 ppm) or enriched (700 ppm) CO2 atmospheres, and then after 4 weeks, plants experienced either 1) no defoliation; 2) every fourth leaf removed by cutting; or 3) every other leaf removed by cutting. Plants were harvested at week 13 (9 weeks after simulated herbivory treatments). Vegetative and reproductive weights were compared, and seeds were counted, weighed, and germinated to assess viability. Plants grown in enriched CO2 environments had significantly greater shoot weights, leaf areas, and root weights, yet had significantly lower reproductive weights (i.e. stalks + spikes + seeds) and produced fewer seeds, than plants grown in ambient CO2 environments. Relative biomass allocation patterns further illustrated differences in plants grown in ambient CO2 environments. Relative biomass allocation patterns further illustrated differences in plant responses to enriched CO2 atmospheres: enriched CO2-grown plants only allocated 10% of their carbon resources to reproduction whereas ambient CO2-grown plants allocated over 20%. Effects of simulated herbivory on plant performance were much less dramatic than those induced by enriched CO2 atmospheres. Leaf area removal did not reduce shoot weights or reproductive weights of plants in either CO2 treatment relative to control plants. However, plants from both CO2 treatments experienced reductions in root weights with leaf area removal, indicating that plants compensated for lost above-ground tissues, and maintained comparable levels of reproductive output and seed viability, at the expense of root growth.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00323777

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Digitale Medien

The effects of enriched CO2 atmospheres on plant-insect herbivore interactions: growth responses of larvae of the specialist butterfly, Junonia coenia (Lepidoptera: Nymphalidae) (1989)

Fajer, E. D.

Springer

Oecologia 81 (1989), S. 514-520

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ISSN: 1432-1939

Schlagwort(e): Food quality ; Iridoid glycosides ; Larval development ; Nutritional indices ; Plantago lanceolata

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Summary Little is known about the effects of enriched CO2 environments, which are anticipated to exist in the next century, on natural plant-insect herbivore interactions. To begin to understand such effects on insect growth and survival, I reared both early and penultimate instar larvae of the buckeye, Junonia coenia (Lepidoptera: Nymphalidae), on leaves from one of their major hostplants, plantain, Plantago lanceolata (Plantaginaceae), grown in either ambient (350 PPM) or high (700 PPM) CO2 atmospheres. Despite consuming more foliage, early instar larvae experienced reduced growth on high CO2-grown compared to ambient CO2-grown leaves. However, survivorship of early instar larvae was unaffected by the CO2 treatment. Larval weight gain was positively correlated with the nitrogen concentration of the plant material and consumption was negatively correlated with foliar nitrogen concentration, whereas neither larval weight gain nor consumption were significantly correlated with foliar water or allelochemical concentrations. In contrast, penultimate instar larvae had similar growth rates on ambient and high CO2-grown leaves. Significantly higher consumption rates on high CO2-grown plants enabled penultimate instar larvae to obtain similar amounts of nitrogen in both treatments. These larvae grew at similar rates on foliage from the two CO2 treatments, despite a reduced efficiency of conversion of ingested food (ECI) on the low nitrogen, high CO2-grown plants. However, nitrogen utilization efficiencies (NUE) were unaffected by CO2 treatment. Again, for late instar larvae, consumption rates were negatively correlated with foliar nitrogen concentrations, and ECI was also very highly correlated with leaf nitrogen; foliar water or allelochemical concentrations did not affect either of these parameters. Differences in growth responses of early and late instar larvae to lower nitrogen, high-CO2 grown foliage may be due to the inability of early instar larvae to efficiently process the increased flow of food through the gut caused by additional consumption of high CO2 foliage.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00378962

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Digitale Medien

Factors affecting calculation of nutritional induces for foliage-fed insects: an experimental approach (1991)

Bowers, M. Deane ; Stamp, Nancy E. ; Fajer, Eric D.

Springer

Entomologia experimentalis et applicata 61 (1991), S. 101-116

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ISSN: 1570-7458

Schlagwort(e): Nutritional ecology ; nutritional indices ; plant-insect interactions ; leaf metabolism ; leaf nitrogen ; leaf protein ; larval biology ; larval stress ; Hemileuca lucina ; Saturniidae ; Spiraea latifolia

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Abstract To determine how nutritional indices for insects fed leaves are affected by the experimental conditions and the physiology of the plant material, we used larvae of the buckmoth, Hemileuca lucina Hy. Ed. (Saturniidae) and their hostplant Spiraea latifolia Ait. Bork (Rosaceae). Under experimental conditions identical to those used to determine larval nutritional indices, we found that the age of leaves (new versus mature) significantly affected their metabolism and water loss, but simulated herbivory did not directly affect leaf metabolism. Over a 6-day test, nitrogen concentration showed an initial increase followed by a gradual decline, and was higher in new leaves compared to mature leaves. New leaves increased in protein concentration and then gradually returned to the initial level, whereas mature leaves changed little over the 6-day test. These changes in percent nitrogen and protein may largely reflect the disproportional changes in non-nitrogenous materials. Solitary and grouped larvae had similar growth rates on new leaves, but they differed on mature leaves. Deliberate manipulation of larvae during the course of an experiment significantly reduced relative growth rates by increasing duration of the stadium rather than by decreasing biomass gained. Two methods of estimating larval gut contents at mid-stadium were compared: weight of frass produced and weight of digestive tract and contents. After the end of the 4-day test period used to determine nutritional indices, the digestive tracts with food accounted for 10.8% of the larval dry weight. Larval frass produced in 24 h after the end of the test period comprised 9.3% of the larval dry weight. Correction factors for plant metabolism changed nutritional indices by 1 to 8%, while those for larval gut contents altered indices by 2 to 15%.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00191740

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