a b s t r a c tThe Portuguese pine forest has become dangerously threatened by pine wilt disease (PWD), caused by the pinewood nematode (PWN), Bursaphelenchus xylophilus. Synthetic chemicals are the most common pesticides used against phytoparasitic nematodes but its use has negative ecological impacts. Phytochemicals may prove to be environmentally friendly alternatives. Essential oils (EOs) and decoction waters, isolated from 84 plant samples, were tested against B. xylophilus, in direct contact assays. Some successful EOs were fractionated and the fractions containing hydrocarbons or oxygen-containing molecules tested separately. Twenty EOs showed corrected mortalities P96% at 2 lL/mL. These were further tested at lower concentrations. Ruta graveolens, Satureja montana and Thymbra capitata EOs showed lethal concentrations (LC 100 ) < 0.4 lL/mL. Oxygen-containing molecules fractions showing corrected mortality P96% did not always show LC 100 values similar to the corresponding EOs, suggesting additive and/or synergistic relationships among fractions. Nine decoction waters (remaining hydrodistillation waters) revealed 100% mortality at a minimum concentration of 12.5 lL/mL. R. graveolens, S. montana and T. capitata EOs are potential environmentally friendly alternatives for B. xylophilus control given their high nematotoxic properties. Nematotoxic activity of an EO should be taken in its entirety, as its different components may contribute, in distinct ways, to the overall EO activity.
Acetone was investigated and found to be an appropriate alternative to Triton X-100 as a solvent of essential oils in bioassays aimed to investigate their effects on pinewood nematode (Bursaphelenchus xylophilus) mortality. Therefore it was used as dilution agent to screen the effectiveness of fifty two essential oils against this pest. Thirteen essential oils were highly effective, resulting in more than 90% pinewood nematode mortality at 2 mg/mL, with six of them resulting in 100% mortality. LC100 values ranged between 0.50 mg/mL and 0.83 mg/mL for the essential oils of Origanum vulgare and Satureja montana, respectively. Essential oils were submitted to gas chromatography and gas chromatography-mass spectrometry analysis and their chemical composition established. Data from essential oils with 100% mortality at 2 mg/mL and other essential oils previously found to have LC100 ≤ 2 mg/mL was combined, their chemical profiles investigated by correspondences analysis plus automatic classification.
In spite of the importance of respiration in forest carbon budgets, the mechanisms by which physiological factors control stem respiration are unclear. An experiment was set up in a Eucalyptus globulus plantation in central Portugal with monoculture stands of 5-year-old and 10-year-old trees. CO(2) efflux from stems under shaded and unshaded conditions, as well as the concentration of CO(2) dissolved in sap [CO(2)(*)], stem temperature, and sap flow were measured with the objective of improving our understanding of the factors controlling CO(2) release from stems of E. globulus. CO(2) efflux was consistently higher in 5-year-old, compared with 10-year-old, stems, averaging 3.4 versus 1.3 mumol m(-2) s(-1), respectively. Temperature and [CO(2)(*)] both had important, and similar, influences on the rate of CO(2) efflux from the stems, but neither explained the difference in the magnitude of CO(2) efflux between trees of different age and size. No relationship was found between efflux and sap flow, and efflux was independent of tree volume, suggesting the presence of substantial barriers to the diffusion of CO(2) from the xylem to the atmosphere in this species. The rate of corticular photosynthesis was the same in trees of both ages and only reduced CO(2) efflux by 7%, probably due to the low irradiance at the stem surface below the canopy. The younger trees were growing at a much faster rate than the older trees. The difference between CO(2) efflux from the younger and older stems appears to have resulted from a difference in growth respiration rather than a difference in the rate of diffusion of xylem-transported CO(2).
a b s t r a c tSatureja montana (winter savory) and Ruta graveolens (rue) nematotoxic essential oils (EOs) (0.5 l EO/ml culture medium) were assessed for the first time in Pinus pinaster in vitro shoot cultures (Ppi) and P. pinaster shoots with Bursaphelenchus xylophilus co-cultures (PpiBx). The EOs nematotoxic effect was evaluated on B. xylophilus population density in PpiBx co-cultures and the phytotoxic activity to the host was assessed by evaluating relative water content and volatile profiles both on Ppi cultures and on PpiBx co-cultures. Carvacrol-rich S. montana EO showed phytotoxicity, by inducing shoot chlorosis and drooping, whereas no major morphological changes were detected on R. graveolens EO-added Ppi and PpiBx in vitro cultures. Both EOs maintained the nematotoxicity during all experimental phases. R. graveolens EO proved to be an effective PWN antagonist to be further evaluated for pine wilt disease control, given its less phytotoxicity while maintaining nematoxicity.
Abstract. We applied an empirical modelling approach for gross
primary productivity (GPP) estimation from hyperspectral reflectance of
Mediterranean grasslands undergoing different fertilization treatments. The
objective of the study was to identify combinations of vegetation indices
and bands that best represent GPP changes between the annual peak of growth
and senescence dry out in Mediterranean grasslands. In situ hyperspectral reflectance of vegetation and CO2 gas exchange
measurements were measured concurrently in unfertilized (C) and fertilized plots
with added nitrogen (N), phosphorus (P) or the combination of N, P and
potassium (NPK). Reflectance values were aggregated according to their
similarity (r≥90 %) in 26 continuous wavelength intervals (Hyp). In
addition, the same reflectance values were resampled by reproducing the
spectral bands of both the Sentinel-2A Multispectral Instrument (S2) and Landsat
8 Operational Land Imager (L8) and simulating the signal that would be captured in
ideal conditions by either Sentinel-2A or Landsat 8. An optimal procedure for selection of the best subset of predictor variables
(LEAPS) was applied to identify the most effective set of vegetation indices
or spectral bands for GPP estimation using Hyp, S2 or L8. LEAPS selected
vegetation indices according to their explanatory power, showing their
importance as indicators of the dynamic changes occurring in community
vegetation properties such as canopy water content (NDWI) or chlorophyll
and carotenoids ∕ chlorophyll ratio (MTCI, PSRI, GNDVI) and revealing their
usefulness for grasslands GPP estimates. For Hyp and S2, bands performed as well as vegetation indices to estimate
GPP. To identify spectral bands with a potential for improving GPP estimates based on vegetation
indices, we applied a two-step procedure which clearly
indicated the short-wave infrared region of the spectra as the most relevant
for this purpose. A comparison between S2- and L8-based models showed similar
explanatory powers for the two simulated satellite sensors when both
vegetation indices and bands were included in the model. Altogether, our results describe the potential of sensors on board
Sentinel-2 and Landsat 8 satellites for monitoring grassland phenology and
improving GPP estimates in support of a sustainable agriculture management.
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