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Ecology and non-chemical control of Rumex crispus and R. obtusifolius (Polygonaceae): a review (2004)

Zaller, J G

Oxford, UK : Blackwell Science Ltd

Weed research 44 (2004), S. 0

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ISSN: 1365-3180

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Rumex crispus and R. obtusifolius are among the most important perennial weeds in agriculture throughout the world. This literature survey revealed that the majority of studies on Rumex ecology, which were conducted under field conditions are of a descriptive nature, while experimental studies mainly report data derived under laboratory or greenhouse conditions. Areas on Rumex ecology which deserve more research include: historical development of Rumex infestations, field studies on seed and root ecology, population ecology, Rumex longevity, and impacts of global climate change on the performance of these species. Although biological, mechanical and cultural control methods were often effective in controlling Rumex populations, they were rarely successful enough to eradicate the weeds. As both species are considered to be indicators of agricultural mismanagement, there is a definite need for well-replicated, full-factorial, long-term field experiments to assess the role of management factors most often stated to be responsible for Rumex infestation and distribution (e.g. high soil N and K levels, slurry and farmyard manure application, sward disturbance, cutting frequency, grazing management, ploughing, soil compaction). It is recommended that future research on non-chemical Rumex control should focus more on the efficacy of combined applications of biological, mechanical and cultural control methods.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-3180.2004.00416.x

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Leaf quality and insect herbivory in model tropical plant communities after long-term exposure to elevated atmospheric CO2 (1995)

Arnone, J. A. ; Zaller, J. G. ; Körner, Ch. ; [et al.]

Springer

Oecologia 104 (1995), S. 72-78

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ISSN: 1432-1939

Keywords: Carbon dioxide enrichment ; Feeding preference ; Leaf quality ; Mesocosms ; Spodoptera eridania

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Results from laboratory feeding experiments have shown that elevated atmospheric carbon dioxide can affect interactions between plants and insect herbivores, primarily through changes in leaf nutritional quality occurring at elevated CO2. Very few data are available on insect herbivory in plant communities where insects can choose among species and positions in the canopy in which to feed. Our objectives were to determine the extent to which CO2-induced changes in plant communities and leaf nutritional quality may affect herbivory at the level of the entire canopy. We introduced equivalent populations of fourth instar Spodoptera eridania, a lepidopteran generalist, to complex model ecosystems containing seven species of moist tropical plants maintained under low mineral nutrient supply. Larvae were allowed to feed freely for 14 days, by which time they had reached the seventh instar. Prior to larval introductions, plant communities had been continuously exposed to either 340 μl CO2 l−1 or to 610 μl CO2 l−1 for 1.5 years. No major shifts in leaf nutritional quality [concentrations of N, total non-structural carbohydrates (TNC), sugar, and starch; ratios of: C/N, TNC/N, sugar/N, starch/N; leaf toughness] were observed between CO2 treatments for any of the species. Furthermore, no correlations were observed between these measures of leaf quality and leaf biomass consumption. Total leaf area and biomass of all plant communities were similar when caterpillars were introduced. However, leaf biomass of some species was slightly greater-and for other species slightly less (e.g. Cecropia peltata)-in communities exposed to elevated CO2. Larvae showed the strongest preference for C. peltata leaves, the plant species that was least abundant in all communites, and fed relatively little on plants species which were more abundant. Thus, our results indicate that leaf tissue quality, as described by these parameters, is not necessarily affected by elevated CO2 under relatively low nutrient conditions. Hence, the potential importance of CO2-induced shifts in leaf nutritional quality, as determinants of herbivory, may be overestimated for many plant communities growing on nutrient-poor sites if estimates are based on traditional laboratory feeding studies. Finally, slight shifts in the abundance of leaf tissue of various species occurring under elevated CO2 will probably not significantly affect herbivory by generalist insects. However, generalist insect herbivores appear to become more dependent on less-preferred plant species in cases where elevated CO2 results in reduced availability of leaves of a favoured plant species, and this greater dependency may eventually affect insect populations adversely.