Plant species loss from European semi‐natural grasslands following nutrient enrichment – is it nitrogen or is it phosphorus?

Aim Although many studies support the prevailing paradigm of nitrogen (N)‐driven biodiversity loss, some have argued that phosphorus (P) may be the main culprit. This questions the generality of the global threat through N enrichment. The major objective here was to quantify the relative importance of soil N and P in explaining patterns of plant species richness, under different levels of N and P limitation. Location North‐western Europe. Methods We collected soil, productivity and plant species data from 132 semi‐natural grasslands located along a gradient of nutrient availability and atmospheric N deposition. We used linear mixed models to investigate the relation between soil nutrients, acidity, limitation and productivity on one side, and indices for plant species richness on the other. Results Mixed models explained between 38 and 50% of the total variation in species numbers, forbs and endangered species. Soil P was significantly negatively related to total species number, forbs and endangered species. Soil N was only significantly negatively related to number of forbs and endangered species. Compared with soil P, the explained variation attributed to soil N was between five‐ and twenty‐fold lower. P‐limited grasslands exhibited higher species richness, numbers of forbs and endangered species. Species richness and number of forbs decreased with lower soil acidity. N deposition was negatively related to the number of forbs and endangered species, as well as to soil acidity. Productivity was weakly positively related to soil P and negatively to species and forb numbers. We found no interaction factors between the explanatory variables. Main conclusions P enrichment can present a greater threat to biodiversity than N enrichment in at least some terrestrial ecosystems. However, as N‐ and P‐driven species loss appeared independent, our results suggest that simultaneously reducing N and P inputs is a prerequisite for maintaining maximum plant diversity.     

Experimental evidence that ground‐disturbance benefits Woodlark Lullula arborea

To determine whether ground‐disturbance increased Woodlark Lullula arborea abundance, we examined responses over 3 years to four treatments varying in establishment method (shallow‐ or deep‐cultivated) and complexity (homogeneous or ‘complex‐mosaics’ comprising fallow and recently cultivated subplots), plus controls, replicated across the largest lowland grass‐heath in the UK. Abundance increased through the study and was higher on plots closer to woodland and across all treatments. Within complex‐mosaics, Woodlark preferentially used recently cultivated subplots over 1‐ or 2‐year‐old fallows. Regardless of treatment detail, providing suitable foraging habitat within c. 45 m of woodland, through annual ground‐disturbance, can increase Woodlark abundance within lowland grass‐heaths characterized by closed swards.     

Temporal variation of the effects of landscape composition on lacewings (Chrysopidae: Neuroptera) in vineyards

1. Increasing landscape heterogeneity, both in terms of composition and configuration, can promote natural enemies and biological control in agricultural landscapes. However, relatively poor information exists about the effects of landscape heterogeneity on lacewings, which are a major group of predators. Furthermore, temporal changes of landscape effects on natural enemy dynamics remain largely unexplored.
2. Here, we investigated how landscape composition and configuration affect lacewings and their biological control potential on leafhoppers. Lacewings and leafhoppers were sampled from April to July in 10 vineyards located in southwestern France. The vineyards were selected along a gradient of a proportion of semi‐natural habitats in the landscape.
3. The proportion of semi‐natural habitats positively affected the abundance of adults and eggs, as well as species richness, of lacewings, alone or in interaction with the sampling month. Landscape configuration was never found to enhance abundance or species richness of lacewings. Finally, the predator–prey ratio increased through time but did not respond to landscape composition or configuration.
4. Our study highlights that the proportion of semi‐natural habitats increases both abundance and diversity of lacewings in vineyard landscapes but that this effect varies over time. This result indicates the need to assess the variability of landscape effects over time to maximize biological pest control services in agricultural landscapes.

     

Interplay between Bimolecular Recombination and Carrier Transport Distances in Bulk Heterojunction Organic Solar Cells

In this work, it is demonstrated that bimolecular recombination depends on the distance that free carriers are required to travel in transit to the electrodes in bulk heterojunction organic solar cells. By employing semi‐transparent devices, the carrier transport distance can be controlled via the local light absorption profile with an appropriate choice of the illumination side and incident wavelength. Using a series of light intensity‐dependent measurements, bimolecular recombination is shown to depend on the distance electrons or holes are required to transit the active layer. This effect is demonstrated for three different bulk heterojunction blends, where the restrictive carrier that causes the onset of recombination is identified. The mobility‐lifetime products of the limiting carriers are also estimated using a simple model for carrier extraction, where similar values are obtained regardless of the absorption profile. Implications for 1‐sun performance are also discussed, which provide guidelines for fabricating devices with thicker active layers capable of maximizing light absorption without succumbing to recombination losses.     

Sensory representation of a non‐planar joint in the walking legs of the horseshoe crab,Limulus polyphemus

The patello‐tibial joint in the walking leg of the horseshoe crab can move in the flexion‐extension and promotion‐remotion planes with the freedom of movement of a ball‐and‐socket joint. Its mechanical status is represented by at least seven populations of sensory neurons and these include three different types of proprioceptors; articular membrane receptors, muscle length receptors and muscle tension receptors. A population of each of these types of proprioceptor is associated with structures on the anterior and posterior sides of each leg. In this report we describe the representation of joint movement in both planes by two populations of each type of proprioceptor. In general, the articular membrane receptors were most sensitive to joint flexion; receptors on the anterior side of the leg were biased toward promotion, while those on the posterior were biased toward remotion. Muscle length receptor activity was increased by joint extension and was slightly augmented, in posterior and anterior length receptors, by promotion and remotion, respectively. Length receptor tonic activity was a linear function of muscle length for extension but a non‐linear function of muscle flexion. Tension receptor activity was always highly dependent upon active muscular contraction. Tension receptors associated with posterior tibial flexor showed enhanced activity when the joint was promoted; the activity of those associated with the anterior flexor was enhanced by remotion. The relationships between tension receptor activity and muscle length, and between tension receptor activity and joint position, were also explored. While no single receptor population appears capable of representing the status of this joint in both planes, the output of all of the receptor populations studied appears to provide the CNS with unambiguous information about several parameters representing the status of this complex joint.     

Introducing an innovative semi‐captive environment for the Philippine tarsier (Tarsius syrichta)

In response to demands for research, captive breeding, and tourism, a semi‐captive environment was created for the Philippine tarsiers (Tarsius syrichta) in Corella, Bohol, Philippines. The 7600‐m² enclosure was continuous with the surrounding habitat, and utilized a unique predator control fence design and a lighting system to attract nocturnal insects. During 2 years of observation, the locations of over 500 tarsier sleeping sites were recorded. Tarsiers were found to prefer dense, low‐level vegetation in secondary forests, with perching sites averaging 2 m above the ground. Up to 10 tarsiers were observed within the enclosure at one time, which is a high density compared to densities based on home‐range estimates for wild tarsiers in the vicinity of the study site. In addition, the tarsiers were observed to be more social than previously reported. Zoo Biol 24:101–109, 2005. © 2005 Wiley‐Liss, Inc.