International study on <i>Artemia</i>: LXIII. Field study of the <i>Artemia urmiana</i> (Günther, 1890) population in Lake Urmiah, Iran

Lake Urmiah is a large (total surface 4750-6100 km² in recent times) thalassohaline hypersaline lake (150-180 g l-1 in the period 1994-1996), located in northwestern Iran. It is the habitat of the endemic Artemia urmiana. Over the period July 1994-January 1996 a sampling campaign was organized: 36 fixed sampling stations, distributed over the entire lake's area, were sampled weekly to determine water temperature, salinity and transparency. At each occasion a filter net was dragged over a distance of 400 m in the superficial water layer to assess the density and composition of the Artemia population. A more limited sampling campaign focused on the annual fluctuations in chlorophyll concentration and on the reproductive behaviour of the brine shrimp population. Several stages of brine shrimp survived during winter months (water temperature 3 °C) at low densities. Compared to available data for the Great Salt Lake, USA, Lake Urmiah shows a low algal biomass and overall low Artemia density. The increasing grazing pressure of the developing brine shrimp population in spring seems to prevent the phytoplankton from reaching high blooming concentrations, and oviparity is the dominant reproductive mode throughout the reproductive season

Microbial community management in aquaculture

Microbial community management in aquaculture creates benefits at the nutritional as well as at health level for cultured species. In addition, in case of biofloc application, it allows to link species at different trophic levels, making bioflocs the potential link in integrated multispecies aquaculture

Effects of salinity on survival, growth, reproductive and life span characteristics of <i>Artemia</i> populations from Urmia Lake and neighboring lagoons

This study deals with effects of different salinities on the survival, growth, reproductive and lifespan characteristics of three Artemia populations from Urmia Lake and small lagoons at the vicinity of the lake under laboratory conditions. Experimental salinities ranged from 75 to 175 g L-1. Salinity was proved to have significant impact on the majority of the characters studied in this survey. Growth and survival in bisexual A. urmiana and parthenogenetic Artemia from Lake Urmia were significantly higher with respect to the parthenogenetic Artemia from lagoons at most of the salinities tested. Reproductive characteristics such as total number of broods, total offspring number of offspring in each brood and number of offspring at each day of reproductive period reduced with increasing salinity. Moreover higher salinity prolonged the pre-reproductive period but shortened the total reproductive period. Higher salinities also affected the percentage of encystment and post-reproductive period, showing significantly higher values in parthenogenetic populations in comparison to bisexual A. urmiana

Parallel Sparse LU Decomposition on a Mesh Network of Transputers

A parallel algorithm is presented for the LU decomposition of a general sparse matrix on a distributed-memory MIMD multiprocessor with a square mesh communication network. In the algorithm, matrix elements are assigned to processors according to the grid distribution. Each processor represents the nonzero elements of its part of the matrix by a local, ordered, two-dimensional linked-list data structure. The complexity of important operations on this data structure and on several others is analysed. At each step of the algorithm, a parallel search for a set of m compatible pivot elements is performed. The Markowitz counts of the pivot elements are close to minimum, to preserve the sparsity of the matrix. The pivot elements also satisfy a threshold criterion, to ensure numerical stability. The compatibility of the m pivots enables the simultaneous elimination of m pivot rows and m pivot columns in a rank-m update of the reduced matrix. Experimental results on a network of 400 transputers are presented for a set of test matrices from the Harwell–Boeing sparse matrix collection

Modifying the Steric Properties in the Second Coordination Sphere of Designed Peptides Leads to Enhancement of Nitrite Reductase Activity

Protein design is a useful strategy to interrogate the protein structureâ function relationship. We demonstrate using a highly modular 3â stranded coiled coil (TRIâ peptide system) that a functional typeâ 2 copper center exhibiting copper nitrite reductase (NiR) activity exhibits the highest homogeneous catalytic efficiency under aqueous conditions for the reduction of nitrite to NO and H2O. Modification of the amino acids in the second coordination sphere of the copper center increases the nitrite reductase activity up to 75â fold compared to previously reported systems. We find also that steric bulk can be used to enforce a threeâ coordinate CuI in a site, which tends toward twoâ coordination with decreased steric bulk. This study demonstrates the importance of the second coordination sphere environment both for controlling metalâ center ligation and enhancing the catalytic efficiency of metalloenzymes and their analogues.Erstklassiges aus der zweiten Reihe: Die Aktivität der Nitritreduktase kann durch Modifikation der sterischen Eigenschaften in der zweiten Koordinationssphäre eines Typâ 2â Kupferzentrums deutlich erhöht werden. à ber die Sterik lassen sich die Koordination und Reaktivität des Metalls in einem dreisträngigen â Coiledâ coilâ â TRIâ Peptidgerüst (TRIWâ H) vorgeben.Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/142882/1/ange201712757_am.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/142882/2/ange201712757-sup-0001-misc_information.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/142882/3/ange201712757.pd

Modifying the Steric Properties in the Second Coordination Sphere of Designed Peptides Leads to Enhancement of Nitrite Reductase Activity

Protein design is a useful strategy to interrogate the protein structureâ function relationship. We demonstrate using a highly modular 3â stranded coiled coil (TRIâ peptide system) that a functional typeâ 2 copper center exhibiting copper nitrite reductase (NiR) activity exhibits the highest homogeneous catalytic efficiency under aqueous conditions for the reduction of nitrite to NO and H2O. Modification of the amino acids in the second coordination sphere of the copper center increases the nitrite reductase activity up to 75â fold compared to previously reported systems. We find also that steric bulk can be used to enforce a threeâ coordinate CuI in a site, which tends toward twoâ coordination with decreased steric bulk. This study demonstrates the importance of the second coordination sphere environment both for controlling metalâ center ligation and enhancing the catalytic efficiency of metalloenzymes and their analogues.Second is best: A significant increase in nitrite reductase activity is achieved by modification of the steric properties of the second coordination sphere of a typeâ 2 copper center. The steric properties can be harnessed to control metal coordination and reactivity in a 3â stranded coiled coil TRI peptide scaffold (TRIWâ H).Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/142897/1/anie201712757.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/142897/2/anie201712757-sup-0001-misc_information.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/142897/3/anie201712757_am.pd

Lipid profile changes during the development of <i>Artemia franciscana</i>, from cysts to the first two naupliar stages

The brine shrimp Artemia is an interesting experimental system for studies of developmental processes. Hatching of dormant cysts gives rise to shrimp larvae called nauplii, characterized by numerous naupliar stages representing the first forms of brine shrimp life cycle. Here combined Thin Layer Chromatography (TLC) and Matrix-Assisted Laser Desorption Ionization-Time-of-Flight/Mass Spectrometry (MALDI-TOF/MS) analyses have been performed to gain information on the lipid profiles of cysts and two naupliar stages. Lipid bands isolated after preparative TLC of the lipid extracts have been analyzed to detect various species of each lipid class; in addition Post-Source Decay (PSD) analyses allowed the identification of phospholipid chains. We compared the relative abundance of various polar and neutral lipid species in the lipid extracts, proving for the first time that during the development of nauplii there is an increase of cardiolipin (CL) and lysophospholipid levels; in parallel, the amount of phosphatidylcholine (PC) decreases. In addition, as regards neutral lipids, we found an increase of diacylglycerols (DAGs) in correspondence of the decrease of triacylglycerols (TAGs). Data reflect the fact that naupliar stages, being an active form of life, are more metabolically active and offer a platform to develop further studies on the importance of lipid metabolic pathways and bioactive lipids during the development

Coexistence of sexual and parthenogenetic <i>Artemia</i> populations in Lake Urmia and neighbouring lagoons

We studied the Artemia populations existing in Lake Urmia (north-western Iran), one of the largest habitats of Artemia in the world, in order to settle the long-standing controversy over the sexual status of the endemic Artemia populations. Experiments were carried out in the laboratory and in the field. Cysts, collected from different sites of the lake and peripheral lagoons, were hatched and cultured to adults in the laboratory. Adult sexual and parthenogenetic animals were isolated and newly hatched nauplii from them were cultured to maturity in different salinities, ranging from 15-80 ppt. Survival levels and percentage of animals attaining adulthood were measured over a period of 30 days. In the field experiment, cysts taken from Lake Urmia were hatched and the resulting nauplii were inoculated into six earthen ponds (80-140 ppt) constructed in the vicinity of the lake. Population composition in each pond was determined over a period of two years. Results indicated that both sexual and parthenogenetic Artemia coexist in Lake Urmia. While the lake itself is dominated by sexual Artemia, the asexual populations were found to be restricted to particular areas in or near the lake. Artemia appearing seasonally in the lagoons adjacent to the lake were exclusively parthenogenetic. Parthenogens could grow, mature and reproduce at very low salinities (15-33 ppt), whereas higher salinities (above 50 ppt) were required for A. urmiana to attain sexual maturity. We consider salinity to be a major abiotic factor determining the distribution of these sexually different populations within and outside the lake