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301.
Nutrient Vectors and Riparian Processing: A Review with Special Reference to African Semiarid Savanna Ecosystems 总被引:2,自引:0,他引:2
S. M. Jacobs J. S. Bechtold H. C. Biggs N. B. Grimm S. Lorentz M. E. McClain R. J. Naiman S. S. Perakis G. Pinay M. C. Scholes 《Ecosystems》2007,10(8):1231-1249
Abstract
This review article describes vectors for nitrogen and phosphorus delivery to riparian zones in semiarid African savannas,
the processing of nutrients in the riparian zone and the effect of disturbance on these processes. Semiarid savannas exhibit
sharp seasonality, complex hillslope hydrology and high spatial heterogeneity, all of which ultimately impact nutrient fluxes
between riparian, upland and aquatic environments. Our review shows that strong environmental drivers such as fire and herbivory
enhance nitrogen, phosphorus and sediment transport to lower slope positions by shaping vegetative patterns. These vectors
differ significantly from other arid and semiarid ecosystems, and from mesic ecosystems where the impact of fire and herbivory
are less pronounced and less predictable. Also unique is the presence of sodic soils in certain hillslopes, which substantially
alters hydrological flowpaths and may act as a trap where nitrogen is immobilized while sediment and phosphorus transport
is enhanced. Nutrients and sediments are also deposited in the riparian zone during seasonal, intermittent floods while, during
the dry season, subsurface movement of water from the stream into riparian soils and vegetation further enrich riparian zones
with nutrients. As is found in mesic ecosystems, nutrients are immobilized in semiarid riparian corridors through microbial
and plant uptake, whereas dissimilatory processes such as denitrification may be important where labile nitrogen and carbon
are in adequate supply and physical conditions are suitable—such as in seeps, wallows created by animals, ephemeral wetlands
and stream edges. Interaction between temporal hydrologic connectivity and spatial heterogeneity are disrupted by disturbances
such as large floods and extended droughts, which may convert certain riparian patches from sinks to sources for nitrogen
and phosphorus. In the face of increasing anthropogenic pressure, the scientific challenges are to provide a basic understanding
of riparian biogeochemistry in semiarid African savannas to adequately address the temporal and spatial impact of disturbances,
and to apply this knowledge to better regional land and water management. An integrated, multidisciplinary approach applied
in protected as well as human-disturbed ecosystems in southern Africa is essential for underpinning a strong environmental
basis for sustainable human-related expansion. 相似文献
302.
In this study, we conducted biological and technical replicate proteomic experiments using isobaric tags for relative and absolute quantification (iTRAQ), to elucidate the light adaptation strategies of Prochlorococcus marinus MED4. The MED4 strain is adapted to an oceanic environment characterized by low nutrient levels, and ever-changing light intensities. Approximately 11% of the proteome was identified, with an average coefficient of variation of iTRAQ quantification values of 0.15. Fifteen proteins were deemed to be statistically and significantly differentially expressed in changing light intensities, particularly the down-regulation of photosystem-related proteins, and the up-regulation of the stress-related chaperone GroEL in high light compared to low light. 相似文献
303.
López-Valenzuela BE Armenta-Bojórquez AD Hernández-Verdugo S Apodaca- Sánchez MA Samaniego-Gaxiola JA Valdez-Ortiz A 《Phyton》2019,88(1):37-46
Microbes that are beneficial to plants are used to
enhance the crop growth, yield and are alternatives to chemical
fertilizers. Trichoderma and Bacillus are the predominant plant
growth-promoting fungi and bacteria. The objective of this study
was select, characterize, and evaluate isolates of Trichoderma
spp. and Bacillus spp. native from the northern region of Sinaloa,
Mexico, and assess their effect on growth promotion in maize (Zea
mays L.). In greenhouse conditions, four Trichoderma isolates and
twenty Bacillus isolates, as well as two controls, were tested in a
completely randomized design with three replicates. We selected
the two best strains of Trichoderma and Bacillus: TB = Trichoderma
asperellum, TF = Trichoderma virens, B14 = Bacillus cereus sensu
lato and B17 = Bacillus cereus, which were evaluated in the field in
a completely randomized blocks in factorial arrangement design
with three replicates applying different rates of nitrogen fertilizer
(0, 150 kg N/ha, and 300 kg N/ha). Treatments 5 (B17 = B. cereus)
and 11 (TF = T. virens) both fertilized with 150 kg N/ha showed
similar yields and they did not reveal significant differences from
the treatments fertilized with 300 kg N/ha. This indicated that
treatment 5 (B17= B. cereus with 150 kg N/ha) and treatment
11 (TF= T. virens with 150 kg N/ha) were efficient as growth
promoters, by not showing significant differences in root volume
and dry weight of foliage. The results indicated a reduction of 50%
in the rate of nitrogen to fertilizer required for maize (Zea mays
L.) crops. These microorganisms Trichoderma and Bacillus could
be an alternative to reduce the use of chemical fertilizers in maize. 相似文献
304.
Marcos Herrera-Vaquero Danielle Bouquio Martin Kallab Karl Biggs Gayatri Nair Jessica Ochoa Antonio Heras-Garvin Christian Heid Inesa Hadrovic Werner Poewe Gregor K. Wenning Frank-Gerrit Klärner Thomas Schrader Gal Bitan Nadia Stefanova 《生物化学与生物物理学报:疾病的分子基础》2019,1865(11):165513
Multiple system atrophy (MSA) is a fatal, adult-onset neurodegenerative disorder that has no cure and very limited treatment options. MSA is characterized by deposition of fibrillar α-synuclein (α-syn) in glial cytoplasmic inclusions in oligodendrocytes. Similar to other synucleinopathies, α-syn self-assembly is thought to be a key pathologic event and a prominent target for disease modification in MSA. Molecular tweezers are broad-spectrum nanochaperones that prevent formation of toxic protein assemblies and enhance their clearance. The current lead compound, CLR01, has been shown to inhibit α-syn aggregation but has not yet been tested in the context of MSA. To fill this gap, here, we conducted a proof-of-concept study to assess the efficacy of CLR01 in remodeling MSA-like α-syn pathology in the PLP-α-syn mouse model of MSA. Six-month-old mice received intracerebroventricular CLR01 (0.3 or 1 mg/kg per day) or vehicle for 32 days. Open-field test revealed a significant, dose-dependent amelioration of an anxiety-like phenotype. Subsequently, immunohistochemical and biochemical analyses showed dose-dependent reduction of pathological and seeding-competent forms of α-syn, which correlated with the behavioral phenotype. CLR01 treatment also promoted dopaminergic neuron survival in the substantia nigra. To our knowledge, this is the first demonstration of an agent that reduces formation of putative high-molecular-weight oligomers and seeding-competent α-syn in a mouse model of MSA, supporting the view that these species are key to the neurodegenerative process and its cell-to-cell progression in MSA. Our study suggests that CLR01 is an attractive therapeutic candidate for disease modification in MSA and related synucleinopathies, supporting further preclinical development. 相似文献
305.
306.
HE Gruber E Marrero JA Ingram GL Hoelscher EN Hanley Jr 《Biotechnic & histochemistry》2017,92(3):222-229
The importance of cytokines in disc degeneration is well recognized. Little is known about IL-22 expression in the human intervertebral disc. We investigated IL-22 immuno-localization in disc tissue, and molecular expression and production of IL-22 by annulus cells cultured in three-dimensional (3D) culture. We examined human disc tissue using immunohistochemistry and we cultured isolated annulus cells in 3D to analyze IL-22 expression and production, and its receptor, IL-22R, in conditioned media. Ingenuity pathway analysis (IPA) also was used to identify significant gene expression networks within the molecular data. IL-22 and IL-22R were immunolocalized in many cells in the human outer and inner annulus; fewer cells exhibited localization in the nucleus. Three-dimensional culture of annulus cells demonstrated production of IL-22 in conditioned media; exposure to IL-1ß or TNF-α significantly reduced IL-22 levels. Significant decreases also were identified in conditioned media assayed for IL-22R in TNF-α treated cells. IPA analysis showed that IL-22 ranked among the top canonical pathways. We found constitutive expression and production of IL-22 and IL-22R in the disc, which expands our understanding of the effect of pro-inflammatory cytokines on IL-22 expression and production. Three-dimensional cultured annulus cells exposed to IL-1ß or TNF produced significantly lower levels of IL-22 into their conditioned media compared to levels produced by control cells. Our findings have clinical relevance because of the elevated pro-inflammatory milieu within the degenerating human disc. 相似文献
307.
The segregation of laboratory maintained male and larval Myrmecia gulosa from workers resulted in increased levels of culturable microbiota. After 29 days, microbial levels recovered from segregated males and larvae were 27 and 126 times greater than from males and larvae not segregated from workers. These findings are consistent with the hypothesis that metapleural gland secretions, absent in larvae and males, are transferred from workers to larvae, and males contribute to the inhibition of cuticular microbiota. 相似文献
308.
309.
Yescas CP MA Segura C L Martínez C VP Álvarez R JA Montemayor T JA Orozco V JE Frías R 《Phyton》2015,84(2):272-279
The scarcity of water in arid and semiarid regions of the world is a problem that every day increases by climate change. The subsurface drip irrigation (SDI) and changes in population density of plants are alternatives that can be used to make a sustainable use of water. Therefore, the objectives of this study were to determine the combination that allows for an increased corn performance and efficient use of water without losing the quality of forage. Three different irrigation levels were applied through a system of a SDI at three different densities of forage maize plants in an arid region. The results demonstrated that by applying different levels of water, either enough or lack of soil moisture is created, which is directly reflected in crop yield, and its determining variables such as green forage and dry matter yield, and nutritional quality. The irrigation level to a 100% of potential evapotranspiration (PET), at a density of 80000 plants/ha, increased yield of green forage to 57664 kg/ha; crude protein was 8.59%, while the rest of the quality parameters decreased. This study allowed to conclude that the irrigation level was the major factor in the response of the crop. 相似文献
310.
Proteins are one of the major metabolites in biomass from microalgae that constitute the diet of marine organisms grown in aquaculture, and are essential for their growth. The quantity of this component is influenced by nutrients, temperature and light intensity, among others. We examined the growth, biomass production and protein of Chaetoceros muelleri with two sources of nitrogen (nitrate and urea) at three concentrations, using the medium f/2 (0.88 mol/L) (nitrates) as control. The treatments were the medium 2f (3.53 mol/L) and 4f (7.05 mol/L) with NO3-, and the medium f/2 (0.88 mol/L), 2f (3.53mol/L) and 4f (7.05 mol/L) with urea. In general, the productive parameters were greater using urea than nitrate in the media. Higher cell concentrations (2.83 x 106 cell/mL), average and cumulative growth rates (1.50 div/day and 6.01 divisions), dry weight (0.0044 g/L), and proportion of proteins (23.74%) were found when urea was used as the N source. However, most of the bands on the electrophoretic profile were present in the mediums with NO3- (~6.5 to 90 kDa). 相似文献