Effects of an experimental drought on the functioning of a cacao agroforestry system,Sulawesi, Indonesia

Agroforestry systems may play a critical role in reducing the vulnerability of farmers' livelihood to droughts as tree‐based systems provide several mechanisms that can mitigate the impacts from extreme weather events. Here, we use a replicated throughfall reduction experiment to study the drought response of a cacao/Gliricidia stand over a 13‐month period. Soil water content was successfully reduced down to a soil depth of at least 2.5 m. Contrary to our expectations we measured only relatively small nonsignificant changes in cacao (?11%) and Gliricidia (?12%) sap flux densities, cacao leaf litterfall (+8%), Gliricidia leaf litterfall (?2%), soil carbon dioxide efflux (?14%), and cacao yield (?10%) during roof closure. However, cacao bean yield in roof plots was substantially lower (?45%) compared with control plots during the main harvest following the period when soil water content was lowest. This indicates that cacao bean yield was more sensitive to drought than other ecosystem functions. We found evidence in this agroforest that there is complementary use of soil water resources through vertical partitioning of water uptake between cacao and Gliricidia. This, in combination with acclimation may have helped cacao trees to cope with the induced drought. Cacao agroforests may thus play an important role as a drought‐tolerant land use in those (sub‐) tropical regions where the frequency and severity of droughts is projected to increase.     

Foraging trip duration of bumblebees in relation to landscape-wide resource availability

Abstract.  1. The study tested the hypotheses that bumblebees have shorter foraging trips in environments that provide abundant resources than in environments that provide sparse resources, and that shorter foraging trips translate into greater colony growth.
2. Six even-aged Bombus terrestris colonies were established in contrasting resource environments. Three colonies had access to abundant resources ( Phacelia tanacetifolia fields with high flower densities), and three colonies were placed in an environment with sparse resources (scattered semi-natural habitats with food plants at lower densities).
3. A total of 870 foraging trips of 220 marked B. terrestris foragers were observed using automated camcorder recordings.
4. The duration of foraging trips was shorter in environments with abundant resources (66 ± 4.6 min) than in environments with sparse resources (82 ± 3.7 min). Within 34 days colonies that had access to abundant resources gained significantly more weight (129 ± 40 g) than colonies foraging on sparse resources (19 ± 7 g).
5. Thus, the spatial distribution and quality of resources at landscape level affected the duration of foraging trips and the colony growth. It was concluded that future conservation schemes need to improve the spatial and temporal availability of resources in agricultural landscapes to counteract the ongoing decline of bumblebees.     

Tree diversity drives abundance and spatiotemporal β‐diversity of true bugs (Heteroptera)

1. Spatiotemporal patterns of canopy true bug diversity in forests of different tree species diversity have not yet been disentangled, although plant diversity has been shown to strongly impact the diversity and distribution of many insect communities. 2. Here we compare species richness of canopy true bugs across a tree diversity gradient ranging from simple beech to mixed forest stands. We analyse changes in community composition by additive partitioning of species diversity, for communities on various tree species, as well as for communities dwelling on beech alone. 3. Total species richness (γ‐diversity) and α‐diversity, and abundance of true bugs increased across the tree diversity gradient, while diversity changes were mediated by increased true bug abundance in the highly diverse forest stands. The same pattern was found for γ‐diversity in most functional guilds (e.g. forest specialists, herbivores, predators). Temporal and even more, spatial turnover (β‐diversity) among trees was closely related to tree diversity and accounted for ～90% of total γ‐diversity. 4. Results for beech alone were similar, but species turnover could not be related to the tree diversity gradient, and monthly turnover was higher compared to turnover among trees. 5. Our findings support the hypothesis that with increasing tree diversity and thereby increasing habitat heterogeneity, enhanced resource availability supports a greater number of individuals and species of true bugs. Tree species identity and the dissimilarity of true bug communities from tree to tree determine community patterns. 6. In conclusion, understanding diversity and distribution of insect communities in deciduous forests needs a perspective on patterns of spatiotemporal turnover. Heterogeneity among sites, tree species, as well as tree individuals contributed greatly to overall bug diversity.     

Genetic differentiation between populations of the European rose hip fly Rhagoletis alternata

We tested for genetic differentiation between populations of Rhagoletis alternata Fall. (Diptera: Tephritidae) on three different host species. We collected larvae from three rose species of the section Caninae ( Rosa canina L., Rosa corymbifera Borkh . , and Rosa rubiginosa L.) from 15 sites across Germany, where the three roses occurred together. Additionally, we sampled three sites in Switzerland. Roses differ in morphology (e.g. leaf glands) as well as phenology. We were able to score nine allozyme loci (five polymorphic). Populations from the three hosts did not differ in genetic variability. We found significant genetic differentiation between populations from different host species. However, the differentiation was very low (0.9%). Hence, we found no indication for host races. Furthermore, surprisingly little geographical structure of genetic differentiation was found between populations of this fruit fly across central Europe. We offer three mutually non-exclusive explanations for these findings. First, gene flow between populations of Rh. alternata is high. Second, the pattern of genetic differentiation is based on a recent expansion of the distributional range . Third, the ongoing gene flow between roses of the section Caninae acts as a hybrid bridge.  © 2007 The Linnean Society of London, Biological Journal of the Linnean Society , 2007, 90 , 619–625.     

Stem-boring insects of fragmented Calamagrostis habitats: herbivore–parasitoid community structure and the unpredictability of grass shoot abundance

Abstract.1. Communities of stem-boring insects attacking the grass Calamagrostis epigeios (L.) Roth were analysed from twenty-five pure stands of C. epigeios differing in area and isolation. Insect communities comprised nine phytophagous and eighteen entomophagous species. Most abundant herbivores (attacking > 1% of all shoots) were Tetramesa eximia (Giraud) (Hym. Eurytomidae), Eurytoma sp. (Hym. Eurytomidae), Lasioptera calamagrostidis (Rübs.) (Dipt. Cecidomyiidae), and Eriopeltis sp. (Hom. Pseudococcidae). About 28% of the twenty-seven species were monophagous, 61% oligophagous (restricted to Poaceae), and 11% polyphagous. Although herbivores generally attacked thick shoots, species-specific differences in the attacked mean diameter were found.2. The main purpose of this study was to analyse the relative effects of area, isolation and unpredictability of available food resources on the abundance of herbivores, parasitoids and resulting tritrophic effects. Variability of shoot abundance varied greatly between years, and even more between habitats within the same year. On average, shoot density per habitat increased or decreased 2.4-fold between succeeding years.3. Variability of grass shoot abundance was not related to habitat characteristics such as area, isolation, biomass, shoot density, changes in area or shoot density between years, or shoot features like internode number or diameter, but was negatively influenced by shading of trees. Similarly, habitat area or isolation did not correlate with other habitat features.4. Grass shoot abundance was the most important predictor of species abundance and attack rate of herbivores. In contrast to expectations, area and isolation of habitats did not explain differences in species richness, and only influenced abundance of three species. In addition, even the experimental removal of all grass shoots (and thereby, of all stem-boring insects) from five habitats in winter did not negatively influence colonization the following year. These results suggest a surprisingly high mobility of this rather specialized community of stem-boring insects that appeared to superimpose on area and isolation effects. Unpredictability of grass shoot abundance was presumably the main selection pressure for the obviously high dispersal abilities of the Calamagrostis insects.5. Per cent parasitism was mainly influenced by the percentage of attacked shoots. Parasitism of T. eximia by its major parasitoid also correlated with habitat connectivity, emphasizing the hypothesis that a continuum of habitats should be particularly favourable for the third trophic level.