Salt marshes: biological controls of food webs in a diminishing environment

This essay reviews two important topics in coastal ecology: the work on the relative role of bottom–up and top–down controls in natural communities and the loss of wetlands worldwide. In salt marshes and other coastal wetlands, bottom–up and top–down mechanisms of control on natural communities are pervasive. Bottom–up effects through nutrient supply may propagate to upper trophic levels via better food quality, or indirectly by altering water and sediment quality. Top–down control by consumers alters lower trophic levels through consumption of primary producers, and indirectly by trophic cascades in which higher predators feed on grazers. The combined forcing of bottom–up and top–down controls govern assemblages of species in natural communities, mediated by physical and biogeochemical factors. Although there is much information about biological controls of coastal food webs, more information is needed. Even more important is that large losses of wetland are occurring along coastlines worldwide due to a variety of economic and social activities including filling, wetland reclamation, and sediment interception. Such losses are of concern because these wetlands provide important functions, including export of energy-rich material to deeper waters, nursery and stock habitats, shoreline stabilization, and intercept land-derived nutrients and contaminants. These important functions justify conservation and restoration efforts; barring such efforts, we will find it increasingly difficult to find coastal wetlands where we can continue to gain further understanding of ecology and biogeochemistry and lack the aesthetic pleasure these wetlands provide to so many of us.     

Voles on small islands: effects of food limitation and alien predation

Ecosystems of three trophic levels may be bottom-up (by food-plant availability) and/or top-down (by predators) limited. Top-down control might be of greater consequence when the predation impact comes from an alien predator. We conducted a replicated two-factor experiment with field voles (Microtus agrestis) during 2004-2005 on small islands of the outer archipelago of the Baltic Sea, south-west Finland, manipulating both predation impact by introduced American mink (Mustela vison) and winter food supply. In autumn 2004, we live-trapped voles on five islands from which mink had been consistently removed, and on four islands where mink were present, and provided half of these islands with 1.8 kg oats per vole. Body mass of female voles increased as a response to supplementary food, whereas both food supplementation and mink removal increased the body mass of male voles in subsequent spring. During winter, there was a positive effect of supplementary food, but in the subsequent summer, possible positive long-term impacts of food supplementation on field voles were not detected. Mink removal appeared not to affect density estimates of field voles during the winter and summer immediately after food addition. Trapping data from 2004 to 2005 and 2007 suggested, however, that in two out of three summers densities of voles were significantly higher in the absence than in the presence of mink. We conclude that vole populations on small islands in the archipelago of the Baltic Sea are mainly bottom-up limited during winter (outside the growing season of food plants), when food availability is low, and limited by mink predation during summer which slows population growth during the reproductive season of voles.     

Salt Tolerance of In Vitro Established Salt-Tolerant Rice Plants during Further Growth in Soil

In vitro salt tolerant rice plants established by step up treatment with 0.5, 1.0, 1.5 and 2.0 % NaCl at 3-week intervals were examined to determine whether they could grow in potted paddy soil containing 0, 0.55 or 0.75 % NaCl till harvesting. All the control plants were necrotic by the 4^th week in the culture. At the 10^th week of culture, 100 % of the salt-tolerant plants subjected to 0 or 0.55 % NaCl survived, and 78 % of the plants at 0.75 % NaCl. The Na⁺ and Cl^– contents in the leaves of salt-tolerant plants grown at 0.55 and 0.75 % NaCl were about 4 times of those without NaCl. The ion contents in non-tolerant plants and seedling plants were 10 to 12 times of those in 0 % NaCl treatment. One of the hypotheses to explain the present data is that the in vitro step up salt selection induces the capability to maintain no lethal concentration of NaCl in the leaves.     

鹅卵清蛋白基因5'端调控区的克隆和序列分析

通过PCR技术从产蛋鹅输卵管基因组中扩增出1．2kb的鹅清蛋白基因5’端调控区,将其亚克隆入phD18-T载体的多克隆位点(标记为pOV),经酶切和测序鉴定：扩增产物只有3个碱基发生了突变,其TATA框、组织特异性因子和卵清蛋白上游启动子均未发生变异,表明鹅清蛋白基因5’端调控区可作为启动外源基因表达的调控序列。为构建其启动外源基因的质粒表达载体奠定了研究基础。     

Long non‐coding RNA highly up‐regulated in liver cancer promotes epithelial‐to‐mesenchymal transition process in oral squamous cell carcinoma

Oral squamous cell carcinoma (OSCC) is an oral and maxillofacial malignancy that exhibits high incidence worldwide. In diverse human cancers, the long non‐coding RNA (lncRNA) highly up‐regulated in liver cancer (HULC) is aberrantly expressed, but how HULC affects OSCC development and progression has remained mostly unknown. We report that HULC was abnormally up‐regulated in oral cancer tissues and OSCC cell lines, and that suppression of HULC expression in OSCC cells not only inhibited the proliferation, drug tolerance, migration and invasion of the cancer cells, but also increased their apoptosis rate. Notably, in a mouse xenograft model, HULC depletion reduced tumorigenicity and inhibited the epithelial‐to‐mesenchymal transition process. Collectively, our findings reveal a crucial role of the lncRNA HULC in regulating oral cancer carcinogenesis and tumour progression, and thus suggest that HULC could serve as a novel therapeutic target for OSCC.     

大黄鱼池塘不同混养模式生态学特征比较

利用菊花江蓠、双齿围沙蚕和大黄鱼在陆基围隔中构建鱼+藻(FG)、鱼+藻+沙蚕(FGP)以及鱼+沙蚕(FP)3种复合养殖模式,以单养鱼(F)模式为对照,探讨不同模式系统的沉积物、水体环境状况、养殖效益及氮、磷元素的回收效率.结果表明:菊花江蓠主要作用于系统水体中氮和磷的净化,具藻处理中氮、磷含量均显著低于无藻处理,对于水体环境中磷的利用效率达到投入量的33.8%～34.0%;沙蚕作用主要体现在对沉积物环境的改善,具沙蚕处理中氮、磷含量低于不具沙蚕处理,且在沉积物表层(1～2 cm)和次表层(2～4 cm)差异均显著.相对于F处理,FGP及FP处理总氮(TN)、总磷(TP)和无机磷(IP)分别下降了8.9%～9.2%、6.1%～6.3%和8.0%～8.1%.沙蚕对于沉积物中磷的回收达到投入量的7.5%～7.8%,有效减缓了磷在沉积物中的积累.FGP系统具有最佳的物质利用率及资源效益.     

Context‐dependent effects of mycorrhizae on herbivore density and parasitism in a tritrophic coastal study system

1. Stressful abiotic conditions and mycorrhizal fungi have both been shown to influence plant quality significantly, yet the interactive effects of these factors on relationships among plants, herbivores, and natural enemies remain unclear. 2. In this study, the results of a factorial field experiment are reported in which the effects of plant stress and mycorrhizae on density and parasitism of three herbivores of Baccharis halimifolia L. were examined. 3. Plant stress was increased by adding salt to the soil, and association with mycorrhizal fungi was increased by inoculating plant roots. 4. Inoculation with mycorrhizal fungi resulted in increased density of all three herbivore species, but the effects of mycorrhizae on parasitism varied by species and with soil salinity levels. For the gall maker Neolasioptera lathami Gagne, mycorrhizae decreased parasitism regardless of soil salinity levels. For the leaf miners Amauromyza maculosa Malloch and Liriomyza trifolii Burgess, mycorrhizae effectively negated the decrease in parasitism resulting from increased salinity. 5. The results of this study show that the effects of mycorrhizae on parasitism may be context dependent, and can be positive or negative depending upon species and environmental conditions.     

[3H]Threo-(±)-Methylphenidate Binding to 3,4-Dihydroxyphenylethylamine Uptake Sites in Corpus Striatum: Correlation with the Stimulant Properties of Ritalinic Acid Esters

Saturable and stereoselective binding sites for [3H]threo-(+/-)-methylphenidate were characterized in rat brain membranes. The highest density of [3H]threo-(+/-)-methylphenidate binding sites was found in the synaptosomal fraction of corpus striatum. Scatchard analysis revealed a single class of noninteracting binding sites with an apparent dissociation constant (KD) of 235 nM and a maximum number of binding sites (Bmax) of 13.4 pmol/mg protein. Saturable, high-affinity binding of [3H]threo-(+/-)-methylphenidate to striatal synaptosomal membranes was dependent on the presence of sodium ions. A good correlation (r = 0.88; p less than 0.001) was observed between the potencies of various psychotropic drugs in displacing [3H]threo-(+/-)-methylphenidate from these sites and their potencies as inhibitors of [3H]3,4-dihydroxyphenylethylamine ( [3H]dopamine) uptake into striatal synaptosomes. A good correlation (r = 0.85; p less than 0.001) was also observed between the potencies of a series of ritalinic acid esters in inhibiting [3H]threo-(+/-)-methylphenidate binding to striatal synaptosomal membranes and their potencies as motor stimulants in mice. These observations suggest that the binding sites for [3H]threo-(+/-)-methylphenidate described here are associated with a dopamine uptake or transport complex, and that these sites may mediate the motor stimulant properties of ritalinic acid esters such as methylphenidate.     

Counterintuitive effects of global warming‐induced wind patterns on primary production in the Northern Humboldt Current System

It has been hypothesized that global warming will strengthen upwelling‐favorable winds in the Northern Humboldt Current System (NHCS) as a consequence of the increase of the land–sea thermal gradient along the Peruvian coast. The effect of strengthened winds in this region is assessed with the use of a coupled physical–biogeochemical model forced with projected and climatological winds. Strengthened winds induce an increase in primary production of 2% per latitudinal degree from 9.5°S to 5°S. In some important coastal upwelling sites primary production is reduced. This is due to a complex balance between nutrient availability, nutrient use efficiency, as well as eddy‐ and wind‐driven factors. Mesoscale activity induces a net offshore transport of inorganic nutrients, thus reducing primary production in the coastal upwelling region. Wind mixing, in general disadvantageous for primary producers, leads to shorter residence times in the southern and central coastal zones. Overall, instead of a proportional enhancement in primary production due to increased winds, the NHCS becomes only 5% more productive (+5 mol C m^?2 year^?1), 10% less limited by nutrients and 15% less efficient due to eddy‐driven effects. It is found that regions with a initial strong nutrient limitation are more efficient in terms of nutrient assimilation which makes them more resilient in face of the acceleration of the upwelling circulation.