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We conducted a laboratory experiment to quantify nutrient (nitrogen and phosphorus) limitation of macroalgae collected along
a gradient in water column nutrient availability in Upper Newport Bay estuary, a relatively nutrient-rich system in southern
California, United States. We collectedEnteromorpha intestinalis and water for use in the experiment from five sites ranging from the lower end of the estuary to the head. Initial algal
tissue N and P concentrations and molar N∶P ratios—as well as water column NO3 and total Kjeldahl nitrogen (TKN)—increased along a spatial gradient from the lower end toward the head. Water column soluble
reactive phosphorus (SRP) varied among sites as well but did not follow a pattem of increasing from the seaward end toward
the head. Algae from each site were assigned to one of four experimental treatments: control (C), nitrogen enrichment (+N),
phosphorus enrichment (+P), and nitrogen and phosphorus enrichment (+N+P). Each week for 3 wk we replaced the water in each
unit with the appropriate treatment water to mimic a poorly flushed estuary. After 3 wk, the degree of nutrient limitation
ofE. intestinalis varied spatially with distance from the head of the estuary. Growth ofE. intestinalis collected from several sites increased with N enrichment alone and increased further when P was added in combination with
N This indicated that N was limiting and that when N was sufficient, P became limiting. Sites from whichE. intestinalis exhibited nutrient limitation spanned the range of background water column NO3 (12.9±0.4 to 55.2±2.1 μM) and SRP (0.8±0.0 to 2.9±0.2 μM) concentrations. Algae that were N limited had initial tissue N
levels ranging from 1.18±0.03 to 2.81±0.08% dry weight and molar N∶P ratios ranging from 16.75±0.39 to 26.40±1.98. 相似文献
2.
Mustafa Erdik Karin Sesetyan Mine Demircioglu Ufuk Hancilar Can Zulfikar Eser Cakti Yaver Kamer Cem Yenidogan Cuneyt Tuzun Zehra Cagnan Ebru Harmandar 《Acta Geophysica》2010,58(5):855-892
The almost-real time estimation of ground shaking and losses after a major earthquake in the Euro-Mediterranean region was performed in the framework of the Joint Research Activity 3 (JRA-3) component of the EU FP6 Project entitled “Network of Research Infra-structures for European Seismology, NERIES”. This project consists of finding the most likely location of the earthquake source by estimating the fault rupture parameters on the basis of rapid inversion of data from on-line regional broadband stations. It also includes an estimation of the spatial distribution of selected site-specific ground motion parameters at engineering bedrock through region-specific ground motion prediction equations (GMPEs) or physical simulation of ground motion. By using the Earthquake Loss Estimation Routine (ELER) software, the multi-level methodology developed for real time estimation of losses is capable of incorporating regional variability and sources of uncertainty stemming from GMPEs, fault finiteness, site modifications, inventory of physical and social elements subjected to earthquake hazard and the associated vulnerability relationships. 相似文献
3.
A 16-mo long monitoring study was carried out in Upper Newport Bay estuary (UNB), Orange County, California, to quantify the
macroalgal community of a southern California estuary. Quarterly sampling began December 1996 at 8 stations along the main
channel and tidal creeks ranging from the head to the lower end of UNB. At each station, two strata (one at high and one at
low elevation) were surveyed. Macroalgal species abundance (% cover and biomass) and algal tissue nitrogen (N) and phosphorus
(P) were measured. The algal community changed from sparse macroalgal cover during winter 1996 to larger patches dominated
byEnteromorpha intestinalis in spring 1997. The community was characterized by a thick cover of macroalgae comprised ofE. intestinalis andUlva expansa in summer 1997 andU. expansa andCeramium spp. in fall 1997. UNB returned to sparse macroalgal cover by spring 1998. In summer and fall 1997, biomass ofE. intestinalis andCeramium reached over 1,000 g wet wt m−2 each, andU. expansa biomass exceeded 700 g wet wt m−2. Tissue N was high inE. intestinalis andU. expansa collected from UNB (≈3% dry wt) and higher inCeramium (≈3.5% dry wt). Tissue P in all three algae ranged from 0.24–0.28% dry wt. Tissue N∶P (molar) ratios inE. intestinalis andU. expansa ranged from 16.4 to 30.0 and inCeramium from 21.8 to 40.1. A field experiment was conducted in whichE. intestinalis was used as a bioassay of N and P availability. Algal tissue was cultured under known conditions and samples were deployed
throughout the estuary and left for 24 h. Tissue N of algae from these bags showed a nominal increase in N with proximity
to the primary nutrient input to the system, San Diego Creek (p=0.0251; r2=0.200). Our data indicate that UNB is already a highly eutrophic estuary, but macroalgal blooms in UNB may increase if more
N is added to the system. 相似文献
4.
Development of ground-shaking maps for the Sultanate of Oman 总被引:1,自引:1,他引:0
5.
Quarterly field sampling was conducted to characterize variations in water column and sediment nutrients in a eutrophic southern
California estuary with a history of frequent macroalgal blooms. Water column and sediment nutrient measures demonstrated
that Upper Newport Bay (UNB) is a highly enriched estuary. High nitrate (NO3
−) loads from the river entered the estuary at all sampling times with a rainy season (winter) maximum estimated at 2,419 mol
h−1. This resulted in water NO3
− concentration in the estuary near the river mouth at least one order of magnitude above all other sampling locations during
every seasons; maximum mean water NO3
− concentration was 800 μM during springer 1997. Phosphorus (P)-loading was high year round (5.7–90.4 mol h−1) with no seasonal pattern. Sediment nitrogen (N)-content showed a seasonal pattern with a spring maximum declining through
fall. sediment and water nutrients, as well as percent cover of three dominant macroalgae, varied between the main channel
and tidal creeks. During all seasons, water column NO3
− concentrations were higher in the main channel than in tidal creeks while tidal creeks had higher levels of sediment total
Kjeldhal nitrogen (TKN) and P. During each of the four sampling periods, percent cover ofEntermorpha intestinalis andCeramium spp. was higher in tidal creeks than in the main channel, while percent cover ofUlva expansa was always higher in the main channel. Decreases in sediment N in both creek and channel habitats were concurrent with increases
in macroalgal cover, possibly reflecting use of stored sediment TKN by macroalgae. Our data suggest a shift in primary nutrient
sources for macroalgae in UNB from riverine input during winter and spring to recycling from sediments duirng summer and fall. 相似文献
6.
Karin Sesetyan Can ZulfikarMine Demircioglu Ufuk HancilarYaver Kamer Mustafa Erdik 《Soil Dynamics and Earthquake Engineering》2011
Potential impact of large earthquakes on urban societies can be reduced by timely and correct action after a disastrous earthquake. Modern technology permits measurements of strong ground shaking in near real-time for urban areas exposed to earthquake risk. The Istanbul Earthquake Rapid Response System equipped with 100 instruments and two data processing centers aims at the near real time estimation of earthquake damages using most recently developed methodologies and up-to-date structural and demographic inventories of Istanbul city. The methodology developed for near real time estimation of losses after a major earthquake consists of the following general steps: (1) rapid estimation of the ground motion distribution using the strong ground motion data gathered from the instruments; (2) improvement of the ground motion estimations as earthquake parameters become available and (3) estimation of building damage and casualties based on estimated ground motions and intensities. The present paper elaborates on the ground motion and damage estimation methodologies used by the Istanbul Earthquake Rapid Response System with a special emphasis on validation and verification of the different methods. 相似文献
7.
Eutrophication often causes hypoxia in estuarine and coastal systems, but the mechanisms that control hypoxic events vary among estuaries and are often difficult to discern. We monitored surface and bottom dissolved oxygen (DO) in the Upper Newport Bay (UNB), a tidally mixed estuary in southern California subject to anthropogenic nutrient loading, eutrophication and hypoxia. Our goal was to identify the environmental factors regulating DO dynamics. Six hypoxic events occurred between June and November and were associated with a combination of low solar radiation, increased freshwater discharge following precipitation, and enhanced haline stratification during reduced tidal range periods. At the head of the estuary, high macroalgal biomass and pronounced haline stratification resulted in high DO in the surface layer and low DO in the bottom layer. Oxygen-rich and oxygen-poor waters were transported down-estuary by ebb tides, resulting in DO heterogeneity throughout the UNB. Cross-wavelet analysis illustrated the down-estuary propagation of high/low DO signal correlated with the phases of diurnal photosynthetic and semi-diurnal tidal cycles. 相似文献
8.
23 October 2011 Van (Turkey) earthquake 总被引:2,自引:0,他引:2
An earthquake of Mw7.2 on 23 October 2011 occurred in the Van region of Eastern Turkey. The main shock and long series aftershocks caused significant damage and claimed 644 lives. The particular features and the lessons learned are covered. 相似文献
9.
Newport Bay is a large estuary in southern California that is subject to anthropogenic nutrient loading, eutrophication, and
hypoxia. Ground-based methods of assessing algal extent for monitoring and management are limited in that they cannot provide
a synoptic view of algal distribution over comparatively large areas. The goal of this study was to explore the application
of color infrared aerial photography as an alternative for analyzing the changes in the abundance of exposed macroalgae. Three
surveys combining remote sensing (color infrared aerial photography) and ground-based sampling to quantify macroalgal mat
coverage were carried out in Upper Newport Bay (UNB) between July and October 2005. Airborne photographs (scale 1:6000) collected
during daytime low tides, clear skies, and appropriate sun angle were digitized to 25-cm resolution, orthorectified, georegistered,
and combined into three mosaic composite digital images: one for each survey. During each aerial photography survey, macroalgal
percent cover was measured on the ground by the pointintercept method in a 6.25-m2 area at ca. 30 locations distributed along the water’s edge throughout the intertidal mudflat area. There were three main
types of cover:Ulva spp. (green algae),Ceranrium spp. (red algae), and bare surface (mud and mussel beds). To analyze similarities between spectral signatures in the images
and cover types, the pixels corresponding to the ground samples from each survey were grouped into clusters based on similarity
of their spectral signatures. To establish relationships between spectral signatures in the images and cover as determined
from ground data, pixels in each composite image corresponding to ground samples from the same day that were characterized
by > 90% of one cover type were attributed to that cover type. Ground samples comprised of a mixture of cover types were used
for accuracy assessment. Before classification, each digital image was transformed by the Minimum Noise Fraction Rotation
method to remove noise and enhance contrast between the classes. For classification of each composite image, the Spectral
Angle Mapper scheme was used: all pixels in each image were attributed to the identified classes and the areal extent of each
class was estimated. According to these assessments, the macroalgal coverage in UNB increased from 37% in July to 57% in September
to 80% in October, and during this timeUlva spp. replacedCeramium spp. as the dominant alga. This analysis showed that color infrared aerial photography is an effective tool for assessing
estuarine, intertidal macroalgal coverage. 相似文献
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