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141.
142.
Boehm DA 《Medical anthropology quarterly》2005,19(1):47-63
In this article, I examine the impact of neoliberalism and welfare reform on the delivery of Medicaid, specifically how the advent of Medicaid managed care (MMC) has been wrought with contradictions, placing increased burdens on primary safety-net organizations and impacting the many communities they serve. I argue that federally qualified health centers (FQHCs) operate as a primary safety net among safety-net providers, supporting and subsidizing New Mexico's MMC program financially and administratively. By presenting ethnographic data, I will demonstrate how FQHCs pay many of the hidden financial and institutional costs of the shift to managed care. Such findings uncover paradoxes inherent to neoliberal ideologies and privatization, raising questions about the efficacy of a managed care system for Medicaid as well as the future of the health care safety net and access to health care for the diverse populations it serves. 相似文献
143.
Pattern of changes in species diversity,structure and dynamics of forest ecosystems along latitudinal gradients in East Asia 总被引:2,自引:1,他引:1
Masaaki?TakyuEmail author Yasuhiro?Kubota Shin-ichiro?Aiba Tatsuyuki?Seino Takashi?Nishimura 《Ecological Research》2005,20(3):287-296
We examined effects of seasonality of climate and dominant life form (evergreen/deciduous, broad-leaf/coniferous) together with energy condition on species diversity, forest structure, forest dynamics, and productivity of forest ecosystems by comparing the patterns of changes in these ecosystem attributes along altitudinal gradients in tropical regions without seasonality and along a latitudinal gradient from tropical to temperate regions in humid East Asia. We used warmth index (temperature sum during growing season, WI) as an index of energy condition common to both altitudinal and latitudinal gradients. There were apparent differences in patterns of changes in the ecosystem attributes in relation to WI among four forest formations that were classified according to dominant life form and climatic zone (tropical/temperate). Many of the ecosystem attributes—Fishers alpha of species-diversity indices, maximum tree height and stem density, productivity [increment rate of aboveground biomass (AGB)], and population and biomass turnover rates—changed sharply with WI in tropical and temperate evergreen broad-leaved forests, but did not change linearly or changed only loosely with WI in temperate deciduous broad-leaved and evergreen coniferous forests. Values of these ecosystem attributes in temperate deciduous broad-leaved and evergreen coniferous forests were higher (stem density was lower) than those in tropical and temperate evergreen broad-leaved forests under colder conditions (WI below 100°C). Present results indicate that seasonality of climate and resultant change in dominant life form work to buffer the effects of energy reduction on ecosystem attributes along latitudinal gradients. 相似文献
144.
Jones AG Arnold SJ Bürger R 《Evolution; international journal of organic evolution》2004,58(8):1639-1654
In quantitative genetics, the genetic architecture of traits, described in terms of variances and covariances, plays a major role in determining the trajectory of evolutionary change. Hence, the genetic variance-covariance matrix (G-matrix) is a critical component of modern quantitative genetics theory. Considerable debate has surrounded the issue of G-matrix constancy because unstable G-matrices provide major difficulties for evolutionary inference. Empirical studies and analytical theory have not resolved the debate. Here we present the results of stochastic models of G-matrix evolution in a population responding to an adaptive landscape with an optimum that moves at a constant rate. This study builds on the previous results of stochastic simulations of G-matrix stability under stabilizing selection arising from a stationary optimum. The addition of a moving optimum leads to several important new insights. First, evolution along genetic lines of least resistance increases stability of the orientation of the G-matrix relative to stabilizing selection alone. Evolution across genetic lines of least resistance decreases G-matrix stability. Second, evolution in response to a continuously changing optimum can produce persistent maladaptation for a correlated trait, even if its optimum does not change. Third, the retrospective analysis of selection performs very well when the mean G-matrix (G) is known with certainty, indicating that covariance between G and the directional selection gradient beta is usually small enough in magnitude that it introduces only a small bias in estimates of the net selection gradient. Our results also show, however, that the contemporary G-matrix only serves as a rough guide to G. The most promising approach for the estimation of G is probably through comparative phylogenetic analysis. Overall, our results show that directional selection actually can increase stability of the G-matrix and that retrospective analysis of selection is inherently feasible. One major remaining challenge is to gain a sufficient understanding of the G-matrix to allow the confident estimation of G. 相似文献
145.
在浸润条件下,以0.5%(v/v)戊二醛交联的高分子膜尼龙载体固定化木瓜蛋白酶。对固定化条件进行了优化,比较了固定化酶与游离酶的酶学参数。结果表明,4℃、pH6.0条件下,将膜载体浸润于2mg/mL酶液中5h,固定化酶活为303.4U/g。固定化酶最适反应pH为6.0~7.0,最适反应温度为65℃。其pH稳定性、热稳定性均比游离酶高。 相似文献
146.
147.
Reconciling Carbon-cycle Concepts, Terminology, and Methods 总被引:5,自引:1,他引:4
F. S. Chapin III G. M. Woodwell J. T. Randerson E. B. Rastetter G. M. Lovett D. D. Baldocchi D. A. Clark M. E. Harmon D. S. Schimel R. Valentini C. Wirth J. D. Aber J. J. Cole M. L. Goulden J. W. Harden M. Heimann R. W. Howarth P. A. Matson A. D. McGuire J. M. Melillo H. A. Mooney J. C. Neff R. A. Houghton M. L. Pace M. G. Ryan S. W. Running O. E. Sala W. H. Schlesinger E.-D. Schulze 《Ecosystems》2006,9(7):1041-1050
Recent projections of climatic change have focused a great deal of scientific and public attention on patterns of carbon (C)
cycling as well as its controls, particularly the factors that determine whether an ecosystem is a net source or sink of atmospheric
carbon dioxide (CO2). Net ecosystem production (NEP), a central concept in C-cycling research, has been used by scientists to represent two different
concepts. We propose that NEP be restricted to just one of its two original definitions—the imbalance between gross primary
production (GPP) and ecosystem respiration (ER). We further propose that a new term—net ecosystem carbon balance (NECB)—be
applied to the net rate of C accumulation in (or loss from [negative sign]) ecosystems. Net ecosystem carbon balance differs
from NEP when C fluxes other than C fixation and respiration occur, or when inorganic C enters or leaves in dissolved form.
These fluxes include the leaching loss or lateral transfer of C from the ecosystem; the emission of volatile organic C, methane,
and carbon monoxide; and the release of soot and CO2 from fire. Carbon fluxes in addition to NEP are particularly important determinants of NECB over long time scales. However,
even over short time scales, they are important in ecosystems such as streams, estuaries, wetlands, and cities. Recent technological
advances have led to a diversity of approaches to the measurement of C fluxes at different temporal and spatial scales. These
approaches frequently capture different components of NEP or NECB and can therefore be compared across scales only by carefully
specifying the fluxes included in the measurements. By explicitly identifying the fluxes that comprise NECB and other components
of the C cycle, such as net ecosystem exchange (NEE) and net biome production (NBP), we can provide a less ambiguous framework
for understanding and communicating recent changes in the global C cycle. 相似文献
148.
Our objective was to determine how varied is the response of C cycling to temperature and irradiance in tundra vegetation. We used a large chamber to measure C exchange
at 23 locations within a small arctic catchment in Alaska during summer 2003 and 2004. At each location, we determined light
response curves of C exchange using shade cloths, twice during a growing season. We used data to fit a simple photosynthesis-irradiance,
respiration-temperature model, with four parameters. We used a maximum likelihood technique to determine the acceptable parameter
space for each light curve, given measurement uncertainty. We then explored which sites and time periods had parameter sets
in common—an indication of functional similarity. We found that seven distinct parameter sets were required to explain observed
C flux responses to temperature and light variation at all sites and time periods. The variation in estimated maximum photosynthetic
rate (Pmax) was strongly correlated with measurements of site leaf area index (LAI). The behavior of tussock tundra sites, the dominant
vegetation of arctic tundra, could largely be described with a single parameter set, with a Pmax of 9.7 μmol m−2 s−1. Tussock tundra sites had, correspondingly, similar LAI (mean = 0.66). Non-tussock sites (for example, sedge and shrub tundras)
had larger spatial and temporal variations in both C dynamic parameters (Pmax varying from 9.7–25.7 μmol m−2 s−1) and LAI (0.6–2.0). There were no clear relationships between dominant non-tussock vegetation types and a particular parameter
set. Our results suggest that C dynamics of the acidic tussock tundra slopes and hilltops in northern Alaska are relatively
simply described during the peak growing season. However, the foot-slopes and water tracks have more variable patterns of
LAI and C exchange, not simply related to the dominant vegetation type. 相似文献
149.
Background and Aims Neotyphodium lolii is a fungal endophyteof perennial ryegrass (Lolium perenne), improving grass fitnessthrough production of bioactive alkaloids. Neotyphodium speciescan also affect growth and physiology of their host grasses(family Poaceae, sub-family Pooideae), but little is known aboutthe mechanisms. This study examined the effect of N. lolii onnet photosynthesis (Pn) and growth rates in ryegrass genotypesdiffering in endophyte concentration in all leaf tissues. Methods Plants from two ryegrass genotypes, Nui D andNui UIV, infected with N. lolii (E+) differing approx. 2-foldin endophyte concentration or uninfected clones thereof (E)were grown in a controlled environment. For each genotype xendophyte treatment, plant growth rates were assessed as tilleringand leaf extension rates, and the light response of Pn, darkrespiration and transpiration measured in leaves of young (3045d old) and old (>90 d old) plants with a single-chamber openinfrared gas-exchange system. Key Results Neotyphodium lolii affected CO2-limited ratesof Pn, which were approx. 17 % lower in E+ than E plants(P < 0·05) in the young plants. Apparent photon yieldand dark respiration were unaffected by the endophyte (P >0·05). Neotyphodium lolii also decreased transpiration(P < 0·05), but only in complete darkness. There wereno endophyte effects on Pn in the old plants (P > 0·05).E+ plants grew faster immediately after replanting (P < 0·05),but had approx. 10 % lower growth rates during mid-log growth(P < 0·05) than E plants, but there was noeffect on final plant biomass (P > 0·05). The endophyteeffects on Pn and growth tended to be more pronounced in NuiUIV, despite having a lower endophyte concentration than NuiD. Conclusions Neotyphodium lolii affects CO2 fixation,but not light interception and photochemistry of Pn. The impactof N. lolii on plant growth and photosynthesis is independentof endophyte concentration in the plant, suggesting that theendophyte mycelium is not simply an energy drain to the plant.However, the endophyte effects on Pn and plant growth are stronglydependent on the plant growth phase. 相似文献
150.
Morpho-anatomical leaf traits and photosynthetic activity of two alpine herbs, Podophyllum hexandrum (shade-tolerant) and Rheum emodi (light-requiring), were studied under field (PAR>2 000 μmol m−2 s−1) and greenhouse (PAR 500 μmol m−2 s−1) conditions. Mesophyll thickness, surface area of mesophyll cells facing intercellular spaces (Smes), surface area of chloroplasts facing intercellular spaces (Sc), intercellular spaces of mesophyll cells (porosity), photon-saturated rate of photosynthesis per unit leaf area (P
Nmax), and ribulose-1,5-bisphosphate carboxylase/oxygenase activity decreased in the greenhouse with respect to the field and
the decreases were significantly higher in R. emodi than in P. hexandrum. P. hexandrum had lower intercellular CO2 concentration than R. emodi under both irradiances. The differences in acclimation of the two alpine herbs to low irradiance were due to their highly
unlikely changes in leaf morphology, anatomy, and P
Nmax
which indicated that the difference in radiant energy requirement related to leaf acclimation had greater impact under low
than high irradiance. 相似文献