Herbivore trampling as an alternative pathway for explaining differences in nitrogen mineralization in moist grasslands

Studies addressing the role of large herbivores on nitrogen cycling in grasslands have suggested that the direction of effects depends on soil fertility. Via selection for high quality plant species and input of dung and urine, large herbivores have been shown to speed up nitrogen cycling in fertile grassland soils while slowing down nitrogen cycling in unfertile soils. However, recent studies show that large herbivores can reduce nitrogen mineralization in some temperate fertile soils, but not in others. To explain this, we hypothesize that large herbivores can reduce nitrogen mineralization in loamy or clay soils through soil compaction, but not in sandy soils. Especially under wet conditions, strong compaction in clay soils can lead to periods of soil anoxia, which reduces decomposition of soil organic matter and, hence, N mineralization. In this study, we use a long-term (37-year) field experiment on a salt marsh to investigate the hypothesis that the effect of large herbivores on nitrogen mineralization depends on soil texture. Our results confirm that the presence of large herbivores decreased nitrogen mineralization rate in a clay soil, but not in a sandy soil. By comparing a hand-mown treatment with a herbivore-grazed treatment, we show that these differences can be attributed to herbivore-induced changes in soil physical properties rather than to above-ground biomass removal. On clay soil, we find that large herbivores increase the soil water-filled porosity, induce more negative soil redox potentials, reduce soil macrofauna abundance, and reduce decomposition activity. On sandy soil, we observe no changes in these variables in response to grazing. We conclude that effects of large herbivores on nitrogen mineralization cannot be understood without taking soil texture, soil moisture, and feedbacks through soil macrofauna into account.     

Breeding biology of Frances's Sparrowhawk Accipiter francesii in a lowland rainforest of northeastern Madagascar

Lily-Arison, R.de R. 2000. Breeding biology of Frances's Sparrowhawk Accipiter francesii in a lowland rainforest of northeastem Madagascar. Ostrich 71 (1 & 2): 332–335.

Frances's Sparrowhawks Accipiter fmncesii were studied during the breeding seasons 1994 and 1995 on Masoala Peninsula of northeastern Madagascar. Breeding coincides with the dry season, nest building in October, egg laying in November, hatching in December and fledging in January (beginning of the wet season). All but one of 10 pairs built new nests in 1995 and the mean distance of nest site from 1994 and 1995 nests was 105± 100 m (n = 6, ranging from 0 to 250m). Nests in primary forest were incubated for 79% of the observation time by females, 3% by males and eggs were unattended for 18% of the observation time. On a numerical basis the diet was composed of lizards (56%) and birds (23%), making up more than 79% of the identified prey items. A total of 33 eggs was laid in 13 nests (average clutch size 2.5). In 13 breeding attempts 29 (88%) hatched and all of those hatchlings fledged. Of the 14 My-documented breeding attempts 2.1 young fledged per breeding attempt and overall nesting success was 93%.

L'Épervier de France Accipiter francesii a été étudié pendant la saison de reproduction en 1994 et 1995 dans la Presqu'Ile Masoala, au partie Nord-Est de Madagascar. La saison de reproduction de cette espkce coincide avec la saison sèche: la construction du nid en Octobre, la ponte en Novembre, I'élosion en Déembre et l'envol du poussin en Janvier (début de la saison pluviale). Tous, sauf une des 10 paires ont construit des nouveaw nids en 1995 et la distance moyenne de I'endroit du nid de I'anné 1994 et 1995 est de 105 + 100 m (n = 6, variant de 0 à 250m). Dans la for[ebar]t primaire, les oeufs ont éeté incubés par la femelle pendant 79% du temps d'observation, 3% par le mile et non incubés pendant 18% du temps. Les proies sont principalement composées de lkzards (56%) et oiseaux (23%), atteignant plus de 79% des proies identifiés. 33 oeufs ont été pondus dans 13 nids (en moyenne 2.5 oeufs par nid). Pour ces 13 nids, 29 oeufs (88%) ont été éclos et tous ces poussins (100%) sont capables de voler. Sur 14 nids observés, 2.1 poussins par nid s'envolent et le tam de succés est de 93%.     

Bovine lactoferricin is anti‐inflammatory and anti‐catabolic in human articular cartilage and synovium

Bovine lactoferricin (LfcinB) is a multi‐functional peptide derived from proteolytic cleavage of bovine lactoferrin. LfcinB was found to antagonize the biological effects mediated by angiogenic growth factors such as vascular endothelial growth factor (VEGF) and fibroblast growth factor 2 (FGF‐2) in endothelial cells. However, the effect of LfcinB on human articular cartilage remained unknown. Here, our findings demonstrate that LfcinB restored the proteoglycan loss promoted by catabolic factors (interleukin‐1β) IL‐1β and FGF‐2 in vitro and ex vivo. Mechanistically, LfcinB attenuated the effects of IL‐1β and FGF‐2 on the expression of cartilage‐degrading enzymes (MMP‐1, MMP‐3, and MMP‐13), destructive cytokines (IL‐1β and IL‐6), and inflammatory mediators (iNOS and TLR2). LfcinB induced protective cytokine expression (IL‐4 and IL‐10), and downregulated aggrecanase basal expression. LfcinB specifically activated ERK MAPK and Akt signaling pathways, which may account for its anti‐inflammatory activity. We also revealed that LfcinB exerted similar protective effects on human synovial fibroblasts challenged by IL‐1β, with minimal cytotoxicity. Collectively, our results suggest that LfcinB possesses potent anti‐catabolic and anti‐inflammatory bioactivities in human articular tissues, and may be utilized for the prevention and/or treatment of OA in the future. J. Cell. Physiol. 228: 447–456, 2013. © 2012 Wiley Periodicals, Inc.     

EB1 Levels Are Elevated in Ascorbic Acid (AA)-stimulated Osteoblasts and Mediate Cell-Cell Adhesion-induced Osteoblast Differentiation

Osteoblasts are differentiated mesenchymal cells that function as the major bone-producing cells of the body. Differentiation cues including ascorbic acid (AA) stimulation provoke intracellular changes in osteoblasts leading to the synthesis of the organic portion of the bone, which includes collagen type I α1, proteoglycans, and matrix proteins, such as osteocalcin. During our microarray analysis of AA-stimulated osteoblasts, we observed a significant up-regulation of the microtubule (MT) plus-end binding protein, EB1, compared with undifferentiated osteoblasts. EB1 knockdown significantly impaired AA-induced osteoblast differentiation, as detected by reduced expression of osteoblast differentiation marker genes. Intracellular examination of AA-stimulated osteoblasts treated with EB1 siRNA revealed a reduction in MT stability with a concomitant loss of β-catenin distribution at the cell cortex and within the nucleus. Diminished β-catenin levels in EB1 siRNA-treated osteoblasts paralleled an increase in phospho-β-catenin and active glycogen synthase kinase 3β, a kinase known to target β-catenin to the proteasome. EB1 siRNA treatment also reduced the expression of the β-catenin gene targets, cyclin D1 and Runx2. Live immunofluorescent imaging of differentiated osteoblasts revealed a cortical association of EB1-mcherry with β-catenin-GFP. Immunoprecipitation analysis confirmed an interaction between EB1 and β-catenin. We also determined that cell-cell contacts and cortically associated EB1/β-catenin interactions are necessary for osteoblast differentiation. Finally, using functional blocking antibodies, we identified E-cadherin as a major contributor to the cell-cell contact-induced osteoblast differentiation.     

Constitutive expression of fluorescent protein by Aspergillus var. niger and Aspergillus carbonarius to monitor fungal colonization in maize plants

Aspergillus niger and Aspergillus carbonarius are two species in the Aspergillus section Nigri (black-spored aspergilli) frequently associated with peanut (Arachis hypogea), maize (Zea mays), and other plants as pathogens. These infections are symptomless and as such are major concerns since some black aspergilli produce important mycotoxins, ochratoxins A, and the fumonisins. To facilitate the study of the black aspergilli–maize interactions with maize during the early stages of infections, we developed a method that used the enhanced yellow fluorescent protein (eYFP) and the monomeric red fluorescent protein (mRFP₁) to transform A. niger and A. carbonarius, respectively. The results were constitutive expressions of the fluorescent genes that were stable in the cytoplasms of hyphae and conidia under natural environmental conditions. The hyphal in planta distribution in 21-day-old seedlings of maize were similar wild type and transformants of A. niger and A. carbonarius. The in planta studies indicated that both wild type and transformants internally colonized leaf, stem and root tissues of maize seedlings, without any visible disease symptoms. Yellow and red fluorescent strains were capable of invading epidermal cells of maize roots intercellularly within the first 3 days after inoculation, but intracellular hyphal growth was more evident after 7 days of inoculation. We also tested the capacity of fluorescent transformants to produce ochratoxin A and the results with A. carbonarius showed that this transgenic strain produced similar concentrations of this secondary metabolite. This is the first report on the in planta expression of fluorescent proteins that should be useful to study the internal plant colonization patterns of two ochratoxigenic species in the Aspergillus section Nigri.     

Reduction of palladium and production of nano-catalyst by Geobacter sulfurreducens

The present study is the first report on the ability of Geobacter sulfurreducens PCA to reduce Pd(II) and produce Pd(0) nano-catalyst, using acetate as electron donor at neutral pH (7.0?±?0.1) and 30 °C. The microbial production of Pd(0) nanoparticles (NPs) was greatly enhanced by the presence of the redox mediator, anthraquinone-2,6-disulfonate (AQDS) when compared with controls lacking AQDS and cell-free controls. A cell dry weight (CDW) concentration of 800 mg/L provided a larger surface area for Pd(0) NPs deposition than a CDW concentration of 400 mg/L. Sample analysis by transmission electron microscopy revealed the formation of extracellular Pd(0) NPs ranging from 5 to 15 nm and X-ray diffraction confirmed the Pd(0) nature of the nano-catalyst produced. The present findings open the possibility for a new alternative to synthesize Pd(0) nano-catalyst and the potential application for microbial metal recovery from metal-containing waste streams.