This work examined the Spanish population's degree of accordance with the Mediterranean diet (MD). This was a cross-sectional study conducted in 2008-2010 among 11,742 individuals representative of the Spanish population aged ≥ 18 y. Habitual food consumption was assessed with a computerized diet history. Accordance of food consumption with the MD was assessed with the MD Adherence Screener (MEDAS) score using the cutoffs ≥ 9 to define strict accordance and ≥ 7 (mid-range value) for modest accordance. Accordance of nutrient intake with the MD was defined as ≥ 4.5 points (mid-range value) on the high-unsaturated fat OmniHeart diet score. The diet of 12% (95% CI: 11.3-12.7%) of the Spanish population reached MEDAS-based strict accordance with the MD and 46% (95% CI: 44.7-47.7) attained modest accordance. Moreover, 39.0% (95%: 37.8-40.1%) of the population achieved OnmiHeart-based MD accordance. Factor analysis identified 2 main dietary patterns. The first one was called "Westernized" and was rich in red and processed meat, French fries, refined cereals, and sweetened beverages and poor in fresh fruit; the second pattern was named "Mediterranean" and was rich in olive oil and plant-based foods. Regardless of how it was defined, MD accordance was less frequent and the Westernized pattern was more frequent among the younger, the less educated, current smokers, and those less physically active and more sedentary. In conclusion, the Spanish population is drifting away from the MD to adopt a less healthy diet, typical of Western countries. The departure from the MD mostly affects the socially disadvantaged and clusters with other unhealthy lifestyles, which may have synergistic undesirable effects on health.
Winter-drought induced forest diebacks in the low-latitude margins of species' distribution ranges can provide new insights into the mechanisms (carbon starvation, hydraulic failure) underlying contrasting tree reactions. We analysed a winter-drought induced dieback at the Scots pine's southern edge through a dual-isotope approach (D
13C and d
18O in treering cellulose). We hypothesized that a differential long-term performance, mediated by the interaction between CO2 and climate, determined the fates of individuals during dieback. Declining trees showed a stronger coupling between climate, growth and intrinsic water-use efficiency (WUEi) than nondeclining individuals that was noticeable for 25 years prior to dieback. The rising stomatal control of water losses with time in declining trees, indicated by negative D
13
C-d
18O relationships, was likely associated with their native aptitude to grow more and take up more water (suggested by larger tracheid lumen widths) than non-declining trees and, therefore, to exhibit a greater cavitation risk. Freeze-thaw episodes occurring in winter 2001 unveiled such physiological differences by triggering dieback in those trees more vulnerable to hydraulic failure. Thus, WUEi tightly modulated growth responses to long-term warming in declining trees, indicating that co-occurring individuals were differentially predisposed to winter-drought mortality. These different performances were unconnected to the depletion of stored carbohydrates.
We present a novel approach to study the sustainability of ancient Mediterranean agriculture that combines the measurement of carbon isotope discrimination (D 13 C) and nitrogen isotope composition (d 15 N) along with the assessment of quality traits in fossil cereal grains. Charred grains of naked wheat and barley were recovered in Los Castillejos, an archaeological site in SE Spain, with a continuous occupation of ca. 1500 years starting soon after the origin of agriculture (ca. 4000 BCE) in the region. Crop water status and yield were estimated from D 13 C and soil fertility and management practices were assessed from the d 15 N and N content of grains. The original grain weight was inferred from grain dimensions and grain N content was assessed after correcting N concentration for the effect of carbonisation. Estimated water conditions (i.e. rainfall) during crop growth remained constant for the entire period. However, the grain size and grain yield decreased progressively during the first millennium after the onset of agriculture, regardless of the species, with only a slight recovery afterwards. Minimum d 15 N values and grain N content were also recorded in the later periods of site occupation. Our results indicate a progressive loss of soil fertility, even when the amount of precipitation remained steady, thereby indicating the unsustainable nature of early agriculture at this site in the Western Mediterranean Basin. In addition, several findings suggest that barley and wheat were cultivated separately, the former being restricted to marginal areas, coinciding with an increased focus on wheat cultivation.
The appearance of agriculture in the Fertile Crescent has propelled the development of Western civilization. Here we investigate the evolution of agronomic conditions in this region by reconstructing cereal kernel weight and using stable carbon and nitrogen isotope signatures of kernels and charcoal from a set of 11 Upper Mesopotamia archaeological sites, with chronologies spanning from the onset of agriculture to the turn of the era. We show that water availability for crops, inferred from carbon isotope discrimination (Δ13C), was two- to fourfold higher in the past than at present, with a maximum between 10,000 and 8,000 cal BP. Nitrogen isotope composition (δ15N) decreased over time, which suggests cultivation occurring under gradually less fertile soil conditions. Domesticated cereals showed a progressive increase in kernel weight over several millennia following domestication. Our results provide a first comprehensive view of agricultural evolution in the Near East inferred directly from archaeobotanical remains.
1. The aim of the study was to detect differences between salt-sensitive and salt-resistant hypertensive patients in the response of the renin—aldosterone axis, plasma noradrenaline and atrial natriuretic peptide to high salt intake.
2. Fifty essential hypertensive patients followed 2 weeks of a standard diet with 20 mmol of NaCl daily, supplemented by placebo tablets for the first 7 days and by NaCl tablets for the last 7 days, in a single-blind fashion. Salt sensitivity was defined as a significant rise (P < 0.05) in 24 h mean blood pressure obtained by ambulatory blood pressure monitoring from the low- to the high-salt period. Biochemical and hormonal measurements were performed on the last day of both periods.
3. Twenty-two (44%) patients fulfilled criteria of salt-sensitive hypertension, whereas the remaining 28 (56%) were considered salt-resistant. High salt intake promoted a significant decrease (P < 0.05) in plasma creatinine, potassium, glucose, cholesterol, low-density lipoprotein-cholesterol, triacylglycerols, uric acid and plasma renin activity, and a significant increase in plasma atrial natriuretic peptide and 24 h urinary calcium excretion. The direction of these changes did not differ between salt-sensitive and salt-resistant patients. Salt-resistant hypertensive patients exhibited a significant decrease in plasma aldosterone induced by high salt intake (from 446 ∓ 35 to 226 ± 35 pmol/l; P < 0.001), whereas this parameter was not significantly modified in salt-sensitive patients (from 485 ± 76 to 364 ± 83 pmol/l; P not significant). Salt-sensitive patients showed an increase in plasma noradrenaline after high salt intake (from 1.15 ± 0.11 to 1.56 ± 0.14 nmol/l; P < 0.05), whereas salt-resistant patients presented a decrease in this parameter (from 1.48 ± 0.08 to 1.12 ± 0.08 nmol/l; P < 0.05). The change in plasma noradrenaline was directly correlated with the change in mean blood pressure induced by high salt intake (r = 0.479; P = 0.003).
4. We conclude that the increase in blood pressure induced by high salt intake in salt-sensitive patients is associated with a stimulation of the sympathetic nervous system and a blunted decrease in plasma aldosterone. Conversely, changes in renal function, electrolyte excretion and plasma concentrations of atrial natriuretic peptide induced by high salt intake seem to be similar in both salt-sensitive and salt-resistant patients.
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