Tolerance of Brazilian brain coral Mussismilia braziliensis to sediment and organic matter inputs     

《Marine pollution bulletin》2014,78(1-2):55-62

In Brazil, where reefs occur in markedly turbid environments, the relationship between sedimentation/organic matter and corals is poorly known. Thus, the ex situ effects of sediment with and without organic matter over the ΔF/Fm and physical state of Mussismilia braziliensis were analyzed. The ΔF/Fm and coral physical state, evaluated through the susceptibility index to sedimentation (SI), were measured in seven colonies exposed to sedimentation (0–450 mg cm⁻² day⁻¹) free of organic matter after 45 days of exposure, and in 12 colonies exposed to sedimentation (0–500 mg cm⁻² day⁻¹) with organic matter content (10%), in which case ΔF/Fm was measured after 72 h and SI after 120 h. In both cases there were effects of increasing sedimentation on the SI with no effect on ΔF/Fm. Despite the tolerance to high sedimentation rates shown by this coral, we noted that the presence of organic matter might reduce its tolerance to sedimentation stress.  相似文献   

Adaptation to high light irradiances enhances the photosynthetic Cu resistance in Cu tolerant and non-tolerant populations of the brown macroalgae Fucus serratus     

Hanne Dalsgaard Nielsen 《Marine pollution bulletin》2010,60(5):710-717

The relationship between light acclimation and Cu²⁺ tolerance was studied in two populations of Fucus serratus known to be naturally non-tolerant and tolerant to Cu²⁺. Acclimation to high irradiances increased the photosynthetic tolerance to Cu²⁺. The xanthophyll cycle was apparently not involved in protecting the photosynthetic apparatus against Cu²⁺ toxicity, as results showed that Cu²⁺ did not induce dynamic photoinhibition. The higher photosynthetic Cu²⁺ resistance of high light algae did not result in increased growth. The excess energy acquired by high light-adapted algae appeared to be utilized in Cu²⁺ defense mechanisms in the Cu²⁺ non-tolerant population. The polyphenol content of the algae was reciprocal to the Cu_T content, suggesting that polyphenol may be the primary Cu²⁺ defense of non-tolerant low light algae, acting through secretion and extracellular chelating of Cu²⁺, while the compounds do not seem to be involved in the primary Cu²⁺ tolerance mechanism in Cu²⁺ tolerant algae.  相似文献   

The beam attenuation to chlorophyll ratio: an optical index of phytoplankton physiology in the surface ocean?   总被引：1，自引：0，他引：1  

Michael J. Behrenfeld  Emmanuel Boss 《Deep Sea Research Part I: Oceanographic Research Papers》2003,50(12):1537-1549

The particulate beam attenuation coefficient (c_p) is proportional to the concentration of suspended particles in a size domain overlapping that of the phytoplankton assemblage. c_p is largely insensitive to changes in intracellular chlorophyll concentration, which varies with growth irradiance (a process termed ‘photoacclimation’). Earlier studies have shown that the ratio of c_p:chlorophyll (i.e., c_p^*) exhibits depth-dependent changes that are consistent with photoacclimation. Similar relationships may likewise be expected in the horizontal and temporal dimensions, reflecting changes in mixing depth, incident irradiance, and light attenuation. A link between c_p^* and more robust photoadaptive variables has never been explicitly tested in the field. Here we use five historical field data sets to directly compare spatial and temporal variability in c_p^* with two independent indices of photoacclimation: the light-saturated, chlorophyll-normalized photosynthetic rate, P^b_opt, and the light-saturation index, E_k. For the variety of oceanographic conditions considered, a first-order correlation emerged between c_p^* and P^b_opt or E_k. These simple empirical results suggest that a relationship exists between a bio-optical variable that can potentially be retrieved remotely (c_p^*) and physiological variables crucial for estimating primary productivity in the sea.  相似文献   

Ecophysiological Studies on Size-fractionated Phytoplankton Populations by Tracer Technique in Wadi el Majanin Dam,Libya     

M. A. Khan 《洁净——土壤、空气、水》1998,26(1):40-44

Wadi el Majanin, one of the largest hydraulic structures in Libya was studied for ecophysiological aspects in relation to ambient environment. The waterbody is alkaline (pH=7.2) and characteristic of hydrogen-carbonate (144.8 mg L^–1 CaCO₃) system. Vertical extinction coefficients (> 4.8) indicate very high (biogenic) turbidity. Conspicuous variations of a quantitative kind in algal development (e.g., Pediastrum bloom) together with abundant diatom populations (chlorococcales-diatom assemblage), apart from very common occurrence of cyanobacteria and euglenoids show eutrophic water condition. Winter-summer alternation induced pronounced seasonal variability in the rates of in situ planktonic algal photosynthetic activities (285.7...1305 mg m^–3 d^–1 C). Dark fixation activity, attributed largely to bacterial production, oscillated by order of 2-fold magnitude, characterized by summer maxima (47.6 mg m^–3 d^–1 C). Size-fractional analysis established that smaller forms (< 60 μm), broadly regarded nanno-phytoplankton, frequently dominated (c. 70%) overall algal productivity.  相似文献   

Growth and survival of Halimione portulacoides stem cuttings in heavy metal contaminated soils     

《Marine pollution bulletin》2013,76(1-2):28-32

The halophytic shrub Halimione portulacoides demonstrates a high tolerance to heavy metal contamination and a capacity for accumulating metals within its tissues. On the Iberian Peninsula, this species has colonized habitats with high levels of metal pollution. The aim of this study is to analyze the response of H. portulacoides stem cuttings to this pollution. Growth, photosynthesis and metal uptake were examined in H. portulacoides through an experiment in which stem cuttings were replanted in metal-contaminated soil. This condition decreased growth and lowered both photosynthetic rate and stomatal conductance. Reduced photosynthetic performance was largely due to the reduced concentration of photosynthetic pigments. Despite these responses, there was some important evidence suggesting the phytoremediatory potential of Halimione stem cuttings. The results of our study indicate that this salt-marsh shrub may represent a biotool of value in the restoration of polluted areas.  相似文献   

Additive toxicity of herbicide mixtures and comparative sensitivity of tropical benthic microalgae     

Marie Magnusson  Kirsten Heimann  Andrew P. Negri 《Marine pollution bulletin》2010,60(11):1978-1987

Natural waters often contain complex mixtures of unknown contaminants potentially posing a threat to marine communities through chemical interactions. Here, acute effects of the photosystem II-inhibiting herbicides diuron, tebuthiuron, atrazine, simazine, and hexazinone, herbicide breakdown products (desethyl-atrazine (DEA) and 3,4-dichloroaniline (3,4-DCA)) and binary mixtures, were investigated using three tropical benthic microalgae; Navicula sp. and Cylindrotheca closterium (Ochrophyta) and Nephroselmis pyriformis (Chlorophyta), and one standard test species, Phaeodactylum tricornutum (Ochrophyta), in a high-throughput Maxi-Imaging-PAM bioassay (Maxi-IPAM). The order of toxicity was; diuron > hexazinone > tebuthiuron > atrazine > simazine > DEA > 3,4-DCA for all species. The tropical green alga N. pyriformis was up to 10-fold more sensitive than the diatoms tested here and reported for coral symbionts, and is recommended as a standard tropical test species for future research. All binary mixtures exhibited additive toxicity, and the use of herbicide equivalents (HEq) is therefore recommended in order to incorporate total-maximum-load measures for environmental regulatory purposes.  相似文献   

Morpho‐Physiological Growth and Yield Responses of Two Contrasting Maize Cultivars to Cadmium Exposure          下载免费PDF全文

Shakeel Ahmad Anjum  Mohsin Tanveer  Saddam Hussain  Ehsan ullah  Longchang Wang  Imran Khan  Rana Abdul Samad  Shahbaz Atta Tung  Madiha Anam  Babar Shahzad 《洁净——土壤、空气、水》2016,44(1):29-36

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Tree root systems competing for soil moisture in a 3D soil–plant model     

《Advances in water resources》2014

Competition for water among multiple tree rooting systems is investigated using a soil–plant model that accounts for soil moisture dynamics and root water uptake (RWU), whole plant transpiration, and leaf-level photosynthesis. The model is based on a numerical solution to the 3D Richards equation modified to account for a 3D RWU, trunk xylem, and stomatal conductances. The stomatal conductance is determined by combining a conventional biochemical demand formulation for photosynthesis with an optimization hypothesis that selects stomatal aperture so as to maximize carbon gain for a given water loss. Model results compare well with measurements of soil moisture throughout the rooting zone, of total sap flow in the trunk xylem, as well as of leaf water potential collected in a Loblolly pine forest. The model is then used to diagnose plant responses to water stress in the presence of competing rooting systems. Unsurprisingly, the overlap between rooting zones is shown to enhance soil drying. However, the 3D spatial model yielded transpiration-bulk root-zone soil moisture relations that do not deviate appreciably from their proto-typical form commonly assumed in lumped eco-hydrological models. The increased overlap among rooting systems primarily alters the timing at which the point of incipient soil moisture stress is reached by the entire soil–plant system.  相似文献   

不同生长季节光照强度和温度对柠条叶片光合作用和呼吸作用的影响   总被引：7，自引：0，他引：7  

王邦锡  黄久常 《中国沙漠》1996,16(2):145-148

表观光合速率在夏季高于秋季并随光照强度增加递增，光饱和点、光补偿点和饱和光下的ＣＯ２补偿点夏季高于秋季，而呼吸作用和叶绿素的含量则较低。这表明秋季叶片光合速率降低与叶绿素含量无关，除部分受呼吸作用影响外，可能还受其它因素的影响。表观光合速率和真光合速率在２５℃时最高，随处理温度升高迅速递降，而呼吸速率则递增。延长温度的处理时间，光合作用和呼吸作用的变幅增大，秋季比夏季明显。这些结果表明，柠条叶片的光合作用和呼吸作用对温度敏感而不耐高温。  相似文献   

The early history of oxygen and ozone in the atmosphere     

James C. G. Walker 《Pure and Applied Geophysics》1978,117(3):498-512

There may have been three stages in the growth of oxygen in the terrestrial atmosphere. Prior to the origin of photosynthesis the only source of oxygen was photolysis of water vapor followed by escape of hydrogen to space. The rate of this process was probably less than the rate of release of reduced gases (principally hydrogen) from volcanoes, so the oxygen partial pressure was held to negligibly low values by photochemical reactions with an excess of hydrogen. The photosynthetic source of oxygen was probably in operation as long ago as 3.8 billion years. It released oxygen to the ocean. Presumably most of this oxygen was destroyed in the ocean as long as its rate of supply was less than the rate of supply of readily oxidizable material (principally Fe²⁺) provided by the weathering of rocks. This phase appears to have lasted until about 2 billion years ago, during which period most banded iron formations were deposited. During this period the production of oxygen by algae was limited by competition with photosynthetic bacteria, which preempted the supply of nutrient phosphorus as long as reduced chemicals were available in the environment. Once the photosynthetic oxygen source exceeded the rate of supply of reduced minerals exposed by erosion and weathering, the accumulation of oxygen in the ocean and atmosphere could be controlled only by reaction of oxygen with reduced organic material. This is the stabilization mechanism that operates today. It seems unlikely that oxygen could be consumed at a significant rate by this process until oxygen levels sufficiently high to support respiration had been achieved. I therefore suggest that atmospheric oxygen rose rapidly from essentially zero to approximately its present value (within a factor of 10) when the photosynthetic source of oxygen rose above the weathering source of reduced minerals, probably about 2 billion years ago. The ozone layer and the ultraviolet screen were absent prior to this time and essentially fully developed after this time.Presented at IAGA/IAMAP Symposium on Minor Neutral Constituents in Middle Atmosphere-Chemistry and Transport, Seattle, August, 1977.  相似文献