146 research outputs found
Effects of nitrogen supply on must quality and anthocyanin accumulation in berries of cv. Merlot
Nitrogen supply to Merlot vines (Vitis vinifera L.), grown under controlled conditions, affected must quality and the anthocyanin content in berry skins irrespective of vegetative growth. High N supply delayed fruit maturation; berries had a higher arginine and a lower anthocyanin content with relatively more abundant acylated anthocyanins compared to berries of vines supplied with low N. During maturation the anthocyanin content in the skin of berries decreased; this was more significant in high-N vines. It is concluded that high nitrogen supply affects the metabolic pathway of anthocyanins in different ways, e.g. it delays the quantitative and qualitative biosynthesis and enhances their degradation during the final steps of berry maturation.
The Prelude to the Deep Minimum between Solar Cycles 23 and 24: Interplanetary Scintillation Signatures in the Inner Heliosphere
Extensive interplanetary scintillation (IPS) observations at 327 MHz obtained
between 1983 and 2009 clearly show a steady and significant drop in the
turbulence levels in the entire inner heliosphere starting from around ~1995.
We believe that this large-scale IPS signature, in the inner heliosphere,
coupled with the fact that solar polar fields have also been declining since
~1995, provide a consistent result showing that the buildup to the deepest
minimum in 100 years actually began more than a decade earlier.Comment: 9 pages, 4 figures, accepted for publication in Geophysical Research
Letters on 28 September 201
A novel model for cyanobacteria bloom formation: the critical role of anoxia and ferrous iron
SUMMARY 1. A novel conceptual model linking anoxia, phosphorus (P), nitrogen (N), iron (Fe) and sulphate to the formation of noxious filamentous and colonial cyanobacteria blooms is presented that reconciles seemingly contradictory ideas about the roles of P, N and Fe in bloom formation. 2. The model has several critical concepts: (i) P regulates biomass and productivity in fresh waters until excessive loading renders a system N-limited or light-limited, but it is the availability of ferrous ions (Fe 2+ ) that regulates the ability of cyanobacteria to compete with its eukaryotic competitors; (ii) Fe 2+ diffusing from anoxic sediments is a major Fe source for cyanobacteria, which acquire it by migrating downwards into Fe 2+ -rich anoxic waters from oxygenated waters; and (iii) subsequent cyanobacterial siderophore production provides a supply of Fe 3+ for reduction at cyanobacteria cell membranes that leads to very low Fe 3+ concentrations in the mixing zone. 3. When light and temperature are physiologically suitable for cyanobacteria growth, bloom onset is regulated by the onset of internal Fe 2+ loading which in turn is controlled by anoxia, reducible Fe content of surface sediments and sulphate reduction rate. 4. This conceptual model provides the basis for improving the success of approaches to eutrophication management because of its far-reaching explanatory power over the wide range of conditions where noxious cyanobacteria blooms have been observed
International Delegations and the Values of Federalism
Inland water sediments receive large quantities of terrestrial organic matter(1-5) and are globally important sites for organic carbon preservation(5,6). Sediment organic matter mineralization is positively related to temperature across a wide range of high-latitude ecosystems(6-10), but the situation in the tropics remains unclear. Here we assessed temperature effects on the biological production of CO2 and CH4 in anaerobic sediments of tropical lakes in the Amazon and boreal lakes in Sweden. On the basis of conservative regional warming projections until 2100 (ref. 11), we estimate that sediment CO2 and CH4 production will increase 9-61% above present rates. Combining the CO2 and CH4 as CO2 equivalents (CO(2)eq; ref. 11), the predicted increase is 2.4-4.5 times higher in tropical than boreal sediments. Although the estimated lake area in low latitudes is 3.2 times smaller than that of the boreal zone, we estimate that the increase in gas production from tropical lake sediments would be on average 2.4 times higher for CO2 and 2.8 times higher for CH4. The exponential temperature response of organic matter mineralization, coupled with higher increases in the proportion of CH4 relative to CO2 on warming, suggests that the production of greenhouse gases in tropical sediments will increase substantially. This represents a potential large-scale positive feedback to climate change
The regional and global significance of nitrogen removal in lakes and reservoirs
Author Posting. © The Author(s), 2008. This is the author's version of the work. It is posted here by permission of Springer for personal use, not for redistribution. The definitive version was published in Biogeochemistry 93 (2009): 143-157, doi:10.1007/s10533-008-9272-x.Human activities have greatly increased the transport of biologically available N through
watersheds to potentially sensitive coastal ecosystems. Lentic water bodies (lakes and
reservoirs) have the potential to act as important sinks for this reactive N as it is
transported across the landscape because they offer ideal conditions for N burial in
sediments or permanent loss via denitrification. However, the patterns and controls on
lentic N removal have not been explored in great detail at large regional to global scales.
In this paper we describe, evaluate, and apply a new, spatially explicit, annual-scale,
global model of lentic N removal called NiRReLa (Nitrogen Retention in Reservoirs and
Lakes). The NiRReLa model incorporates small lakes and reservoirs than have been
included in previous global analyses, and also allows for separate treatment and analysis
of reservoirs and natural lakes. Model runs for the mid-1990s indicate that lentic systems
are indeed important sinks for N and are conservatively estimated to remove 19.7 Tg N
yr-1 from watersheds globally. Small lakes (< 50 km2) were critical in the analysis,
retaining almost half (9.3 Tg N yr-1) of the global total. In model runs, capacity of lakes
and reservoirs to remove watershed N varied substantially (0-100%) both as a function of
climate and the density of lentic systems. Although reservoirs occupy just 6% of the
global lentic surface area, we estimate they retain approximately 33% of the total N
removed by lentic systems, due to a combination of higher drainage ratios (catchment
surface area : lake or reservoir surface area), higher apparent settling velocities for N, and
greater N loading rates in reservoirs than in lakes. Finally, a sensitivity analysis of
NiRReLa suggests that, on-average, N removal within lentic systems will respond more
strongly to changes in land use and N loading than to changes in climate at the global
scale.The NSF26 Research Coordination Network on denitrification for support for collaboration
(award number DEB0443439 to S.P. Seitzinger and E.A. Davidson). This project was
also supported by grants to J.A. Harrison from California Sea Grant (award number
RSF8) and from the U.S. Geological Survey 104b program and R. Maranger (FQRNT
Strategic Professor)
Justice: Greater Access, Lower Costs
Litigation imposes large costs on society; this justifies settlement considerations. In any case, access to justice is critical to socioeconomic development; as such, it needs to be balanced with litigation minimization. This study examines the tradeoff between litigation and access to justice and explicitly elucidates their relationship. In considering access issues, this study finds that the outcomes of policies that affect parties’ litigation decisions partially depart from those in the standard literature. For instance, increasing parties’ litigation costs does not necessarily promote settlement in the shadow of the court. Rather, effects depend on the elasticity of the demand for legal remedies. Furthermore, even while pushing litigation, enhancing access to justice is efficient as long as the claimant’s marginal propensity to litigate is smaller than the social opportunity-cost of access to justice. This finding offers further insight into the suitability of litigation subsidization through legal aid
Influence des techniques de culture de la vigne sur l'acidite des mouts et des vins.
National audienc
- …