2,366 research outputs found
Fungal endophytes affect plant response to leaf litter with contrasting chemical traits
Abstract
Plant litter decomposition is a crucial process of nutrient cycling within ecosystems. However, many studies have shown that, apart from its several beneficial effects, organic matter decomposition can be disadvantageous to seed germination, seedling growth, and physiological activity of plants. Litter decomposition was reported to affect both plants and their associated soil microbial communities. The aim of this work was to test the relationships between seed-associated endophytic fungi on the either positive or negative plant's response to different litter types. Leaf material of four species was collected and used in a decomposition experiment inside a growth chamber for 120 days. The plant growth experiment was set in a greenhouse using Trifolium repens and Triticum durum with and without their associated endophytic fungi in the presence of the different litter species at two decay levels (fresh litter and after 120 days of decomposition). Results demonstrated that fresh litter exerted a strong inhibition effect on the plant total biomass when compared to decomposed litter. Moreover, seed-associated endophytic fungi enhanced the inhibitory effect of litter in the observed experimental conditions. The removal of seed-associated endophytic fungi improved the capacity of tested plants to resist to litter inhibitory effect
Applications of Blockchain for the Governance of Integrated Project Delivery: A Crypto Commons Approach
This paper outlines why and how blockchain can digitally support and evolve
the governance of collaborative project deliveries, such as integrated project
deliveries (IPDs), to provide the foundation for novel and disruptive forms of
organizational collaboration in the construction industry. Previous work has
conceptualized IPDs as a common pool resource (CPR) scenario, where shared
resources are collectively governed. Through the use of blockchain and smart
contracts for trustworthy peer-to-peer transactions and execution logic,
Ostrom's design principles can be digitally encoded to scale CPR scenarios.
Building on the identified connections, the paper 1) synthesizes fourteen
blockchain-based mechanisms to govern CPRs, 2) identifies twenty-two
applications of these mechanisms to govern IPDs, and 3) introduces a
conceptualization of the above relationships towards a holistic understanding
of collaborative project deliveries on the crypto commons for novel collective
organization of construction project delivery between both humans and machines
Decomposition and temperature sensitivity of fine root and leaf litter of 43 mediterranean species
Aims: Data on the decomposition of fine roots are scarce for the Mediterranean basin. This work aims to compare chemical traits, decomposition rate, and temperature sensitivity (Q10) for root and leaf litter of 43 Mediterranean species. Methods: We carried out a two-years litterbag decomposition experiment using 43 fine roots litter and leaf litter types incubated in laboratory conditions at three different temperatures, i.e. 4 °C, 14 °C, and 24 °C. Litter was characterized for carbon (C), nitrogen (N), lignin and cellulose concentration, C/N, and lignin/N ratios. Results: Fine root litter had lower N content but higher lignin concentration, lignin/N, and C/N ratios compared to leaf litter. The decay rate of fine root litter was slower than leaf litter. For both tissues, the decay rate was negatively associated with lignin concentration, lignin/N, and C/N ratios but positively with N concentration. Q10 was higher for fine root than leaf litter, with a positive correlation with lignin while negative with N concentration. Conclusions: Our findings demonstrate a higher Q10 accompanied by a slower decomposition rate of fine root litter compared to leaf litter in Mediterranean ecosystems. These results must be considered in modeling organic C at the ecosystem scale
Experimental realization of a nonlinear acoustic lens with a tunable focus
We realize a nonlinear acoustic lens composed of a two-dimensional array of sphere chains interfaced with water. The chains are able to support solitary waves which, when interfaced with a linear medium, transmit compact pulses with minimal oscillations. When focused, the lens is able to produce compact pressure pulses of high amplitude, the “sound bullets.” We demonstrate that the focal point can be controlled via pre-compression of the individual chains, as this changes the wave speed within them. The experimental results agree well both spatially and temporally with analytical predictions over a range of focus locations
Results on Multiple Coulomb Scattering from 12 and 20 GeV electrons on Carbon targets
Multiple scattering effects of 12 and 20 GeV electrons on 8 and 20 mm
thickness carbon targets have been studied with high-resolution silicon
microstrip detectors of the UA9 apparatus at the H8 line at CERN. Comparison of
the scattering angle between data and GEANT4 simulation shows excellent
agreement in the core of the distributions leaving some residual disagreement
in the tails.Comment: 14 pages, 16 figures. Updated to match published versio
Integrated modeling of ASDEX Upgrade plasmas combining core, pedestal and scrape-off layer physics
Topography modulates near-ground microclimate in the Mediterranean Fagus sylvatica treeline
Understanding processes controlling forest dynamics has become particularly important in the context of ongoing climate change, which is altering the ecological fitness and resilience of species worldwide. However, whether forest communities would be threatened by projected macroclimate change or unaffected due to the controlling effect of local site conditions is still a matter for debate. After all, forest canopy buffer climate extremes and promote microclimatic conditions, which matters for functional plant response, and act as refugia for understory species in a changing climate. Yet precisely how microclimatic conditions change in response to climate warming will depend on the extent to which vegetation structure and local topography shape air and soil temperature. In this study, we posited that forest microclimatic buffering is sensitive to local topographic conditions and canopy cover, and using meteorological stations equipped with data-loggers we measured this effect during 1 year across a climate gradient (considering aspect as a surrogate of local topography) in a Mediterranean beech treeline growing in contrasting aspects in southern Italy. During the growing season, the below-canopy near-ground temperatures were, on average, 2.4 and 1.0 °C cooler than open-field temperatures for south and north-west aspects, respectively. Overall, the temperature offset became more negative (that is, lower under-canopy temperatures at the treeline) as the open-field temperature increased, and more positive (that is, higher under-canopy temperatures at the treeline) as the open-field temperature decreased. The buffering effect was particularly evident for the treeline on the south-facing slope, where cooling of near-ground temperature was as high as 8.6 °C for the maximum temperature (in August the offset peaked at 10 °C) and as high as 2.5 °C for the average temperature. In addition, compared to the south-facing slope, the northern site exhibited less decoupling from free-air environment conditions and low variability in microclimate trends that closely track the free-air biophysical environment. Although such a decoupling effect cannot wholly isolate forest climatic conditions from macroclimate regional variability in the south-facing treeline, it has the potential to partly offset the regional macroclimatic warming experienced in the forest understory due to anthropogenic climate change
Role of vitamin D derivatives in intestinal tissue of patients with inflammatory bowel diseases.
Experimental Investigations of the H-mode Access in Mixed Hydrogen-Deuterium Plasmas at ASDEX Upgrade
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