ライフサイエンスコーパス: freshwater

1 and precise quantification of anatoxin-a in freshwater.

2 h spares 9 ha, 67 tonnes CO(2), and 40,000 L freshwater.

3 great potential because they do not require freshwater.

4 drochemically diverse artificial and natural freshwaters.

5 SPGW delivers approximately 400-2100 m(3) of freshwater, 14-71 kg of DOC, and 1-4 kg of DON to the co

6 01%) than brackish water (24.5 +/- 1.92%) or freshwater (19.3 +/- 1.92%).

7 cing establishments when recipient ports are freshwater (58 140 vs 11 338 trips until >=1 establishme

8 ion at an intercontinental scale across four freshwater adaptive radiations (Alaska, British Columbia

9 espite reductions in acidic deposition, high freshwater Al concentrations continue to threaten acidif

10 photosystem II (PSII) inhibitors, using the freshwater alga Desmodesmus subspicatus, in environmenta

11 re we evaluate the water use associated with freshwater algae cultivation and find it is possible to

12 products that are isolated from mussels and freshwater algae.

13 rticles from these sources can accumulate in freshwater algal assemblages, we hypothesized that nanop

14 onditions: aerobic respiration of glucose in freshwater, anaerobic respiration of acetate in marine s

15 an is key to regulate the transport of heat, freshwater and biogeochemical tracers, with strong impli

16 ms are the main primary producers in shallow freshwater and coastal environments, fulfilling importan

17 This review focuses on MP ingestion by wild freshwater and estuarine fish.

18 Here we show that freshwater and marine anammox bacteria couple the oxidat

19 tation, facilitating success in terrestrial, freshwater and marine ecosystems.

20 of the most important family of compounds in freshwater and marine ecosystems.

21 Freshwater and marine fish have been important component

22 erstanding of the effects of virgin MP/NP in freshwater and marine fish is still limited.

23 ps of microalgae from diverse habitats, from freshwater and marine free-living forms to endosymbiotic

24 arge size, it does play an important role in freshwater and marine nitrogen (N) cycling.

25 efly discussing the impacts of hydropower on freshwater and marine organisms, we focus this review on

26 ar Power Plant (NPP) accident in 1986 and in freshwater and marine systems after the more recent Fuku

27 strong affinity for environmental niches in freshwater and marine systems, they are among the most n

28 sequencing of multiple independent invasive freshwater and native saline populations of the copepod

29 projected to become an increasing source of freshwater and nutrients to the Arctic Ocean as permafro

30 n strongly influenced by river discharges of freshwater and nutrients, which promote a highly product

31 ic effects on dissolution of metallic NPs in freshwater and similar media.

32 The limited sodium availability of freshwater and terrestrial environments was a major phys

33 en established for many organisms, including freshwater and terrestrial invertebrates.

34 reasingly vulnerable to invasions by marine, freshwater and terrestrial non-native species.

35 Storms caused large and fast influxes of freshwater and terrestrial sediment - locally known as r

36 prehensive dataset comprising ~6,200 marine, freshwater and terrestrial taxa.

37 connects organic matter (OM) pools in soil, freshwater, and marine ecosystems with the atmosphere, t

38 found to be a major form of microplastics in freshwaters, and washing of synthetic textiles has been

39 tat selection traits at different flows of a freshwater apex predator, Ganges River dolphin (GRD, Pla

40 tical basis for understanding the effects of freshwater aquaculture in disease spread in wildlife, de

41 ainable farmed aquatic foods should focus on freshwater aquaculture.

42 but appreciable amounts are also employed in freshwater aquaculture.

43 model, human toxicity as well as marine and freshwater aquatic ecotoxicity characterization factors

44 Additionally, freshwaters are being salinized rapidly in all human-dom

45 4.9 and 1.8 +/- 1.1 g/cap/a are emitted into freshwater as macroplastics and microplastics, respectiv

46 Microcystin toxins were identified in freshwater, as well as aerosol particles generated in th

47 boviral pathogens and breed in containers of freshwater associated with human habitation.

48 Migration from freshwater at a younger age, and increasing competition

49 ic methane and ethylene from terrestrial and freshwater bacteria are directly produced by a previousl

50 toichiometric trait distribution of cultured freshwater bacterial populations under different resourc

51 results suggest ancient connections between freshwater basins of East Asia and Europe near the Creta

52 related to pathogens within bed sediment at freshwater beaches.

53 l species yielded on average just 22% of the freshwater benefits achieved through freshwater-focused

54 r, by using integrated cross-realm planning, freshwater benefits could be increased by up to 600% for

55 e but aquatic connectivity is accounted for, freshwater benefits could still be doubled for negligibl

56 s the annual emergence of mayfly swarms from freshwater benthic habitats, but their characterization

57 eavily impacted by multiple stressors, and a freshwater biodiversity crisis is underway.

58 Where freshwater biodiversity data are unavailable but aquatic

59 Freshwater biodiversity is at particular risk, but previ

60 comprehensive surrogate for conservation of freshwater biodiversity.

61 trongly affect fish species distribution and freshwater biodiversity.

62 act as surrogate species for conservation of freshwater biodiversity.

63 s a model to reconstruct spatial patterns of freshwater biogeographic divides throughout Asia.

64 Here, we present an updated freshwater biogeographic division of mainland Southeast

65 Our findings highlight that the freshwater bivalve fauna of Southeast Asia primarily ori

66 t still overlooked local endemic lineages of freshwater bivalves, which may be on the brink of extinc

67 rica, their tributaries and smaller regional freshwater bodies are important Native American fisherie

68 llution to the sea, plastic contamination in freshwater bodies is comparatively understudied.

69 al fibres, under three different salinities (freshwater, brackish water, saltwater).

70 nitrite oxidizers that inhabit nutrient-rich freshwater, brackish, and marine environments.

71 t is believed to be necessary to balance the freshwater budget of the subtropical gyre and to support

72 teridae is one of the most diverse groups of freshwater catfishes in South and Central America with e

73 d genomic sampling within the genus Hydra, a freshwater cnidarian at the focal point of diverse resea

74 biodiversity, and little is known about the freshwater cobenefits of terrestrial conservation action

75 in Fads2 copies, indicating its key role in freshwater colonization.

76 Freshwater comes from different sources unevenly distrib

77 The traditional paradigm is that freshwaters compensate for N-limitation through N-fixati

78 The Beaufort Gyre freshwater content has increased since the 1990s, potent

79 budget and show that energy dissipation and freshwater content stabilization by eddies increased in

80 In 2008, freshwater-cultured catfish production surpassed that of

81 The freshwater cyprinid Tanichthys albonubes was used to ass

82 ter flux large enough to explain much of the freshwater deficit in the subtropical-mode water budget

83 ld meet 19.7% of U.S. jet fuel demand with a freshwater demand of less than 1.4% of U.S. irrigation c

84 recasts due to variability in wind speed and freshwater discharge allows estimates of weather-related

85 The presence of this cyanotoxin in freshwater, drinking water, water reservoir supplies and

86 suggest that CO(2) consumption in proglacial freshwaters due to glacial melt-enhanced weathering is l

87 ation has prompted calls to integrate global freshwater ecosystem data, including traditional taxonom

88 ry threat, affecting nearly every marine and freshwater ecosystem globally.

89 Cited as the "most outstanding example of a freshwater ecosystem" and designated a World Heritage Si

90 ence of toxic methylmercury (MeHg) in Arctic freshwater ecosystems and foodwebs is a potential health

91 Carbon dioxide (CO(2)) emissions from freshwater ecosystems are almost universally predicted t

92 Freshwater ecosystems are among the most diverse and dyn

93 Freshwater ecosystems are exposed to engineered nanopart

94 Freshwater ecosystems are heavily impacted by multiple s

95 o conclusively show that certain glacier-fed freshwater ecosystems are important and previously overl

96 Freshwater ecosystems are under-represented among the wo

97 map the bioavailable contamination level of freshwater ecosystems at a large spatial scale.

98 Pathogenic bacteria associated with freshwater ecosystems can pose significant health risks

99 g strategies to more comprehensively protect freshwater ecosystems from salinization.

100 imited, and most genome recovery attempts in freshwater ecosystems have only targeted specific taxa.

101 eeded for maintaining healthy and functional freshwater ecosystems in the Anthropocene.

102 Andean freshwater ecosystems in the Neotropical region are expe

103 e discharge of chloride-laden groundwater to freshwater ecosystems may pose a heightened risk to endo

104 Terrestrial and freshwater ecosystems will collapse without insects.

105 has created a common phenomenon in eutrophic freshwater ecosystems worldwide.

106 In freshwater ecosystems, habitat alteration contributes di

107 reat Basin wetlands suggest a major shift in freshwater ecosystems, resulting in degradation of a con

108 al change, plastics now occur extensively in freshwater ecosystems, yet there is barely any evidence

109 n Research Plans for marine, terrestrial and freshwater ecosystems.

110 ersity conservation and invasion dynamics in freshwater ecosystems.

111 n interventions for protecting and restoring freshwater ecosystems.

112 likely one of the highest-order predators in freshwater ecosystems.

113 stablishment and early evolution of land and freshwater ecosystems.

114 ably quantify chemical exposure gradients in freshwater ecosystems.

115 zer has contributed to the eutrophication of freshwater ecosystems.

116 etter constrain greenhouse gas emission from freshwater ecosystems.

117 nts a key component of carbon (C) cycling in freshwater ecosystems.

118 to address excess nutrient concentrations in freshwater ecosystems.

119 ct species in concert with climate change in freshwater ecosystems.

120 HCNL1 evolutionarily adapted to a low-Na(+) freshwater environment to conserve sperm's ability to de

121 gical shifts in transitioning from marine to freshwater environments during the Devonian [7, 8].

122 Investigations of microplastic abundances in freshwater environments have become more common in the p

123 gal blooms (HABs) caused by cyanobacteria in freshwater environments produce toxins (e.g., microcysti

124 s bacteria present in our oceans, coasts and freshwater environments.

125 oncentrations down to the nanomolar level in freshwater environments.

126 rophic networks of Antarctic terrestrial and freshwater environments; yet we still know little about

127 e data for marine diplonemids, together with freshwater euglenids and free-living kinetoplastids, the

128 s shown to reduce terrestrial acidification, freshwater eutrophication, and particulate matter impact

129 ct categories and indicators considered were freshwater eutrophication, climate change, energy demand

130 Here we present an inventory of the freshwater fauna and flora found in a sediment sample fr

131 eographic subregion having a largely endemic freshwater fauna, the boundaries of this subregion are s

132 iliated protozoan parasite, is a pathogen of freshwater finfish species with geographic and host rang

133 s - small-bodied vertebrates, large mammals, freshwater fish - and undisturbed landscapes.

134 all predict a reduction in the range of this freshwater fish based on climate change scenarios.

135 monstrate the apparent universality by which freshwater fish communities are sensitive to even low le

136 ment and policy initiatives that ensure that freshwater fish diversity is not inevitably lost in the

137 rstand phenotypic plasticity of a long-lived freshwater fish in response to environmental conditions,

138 Microplastic pollution in freshwater fish is of growing interest, and while few st

139 endangered marble trout Salmo marmoratus, a freshwater fish living in a restricted geographical area

140 ) extensive records of total mercury (Hg) in freshwater fish showed consistent declines in boreal and

141 n, using geographic ranges of 8,147 strictly freshwater fish species (i.e., 63% of all known species)

142 and number of migratory trips) in two common freshwater fish species, roach Rutilus rutilus, common b

143 Zebrafish are freshwater fish that cannot tolerate high-salt environme

144 re investigated in chub Squalius cephalus, a freshwater fish, infected (n = 73) or uninfected (n = 45

145 nes with parallel increased expression among freshwater fish, the quantitative degree of cis- and tra

146 s' range size, the geographic range sizes of freshwater fishes are mostly explained by the species' p

147 erences making it an excellent model for how freshwater fishes can be affected by climate change.

148 Upstream range shifts of freshwater fishes have been documented in recent years d

149 is one of the most destructive pathogens of freshwater fishes.

150 virus-host system.IMPORTANCE Planarians are freshwater flatworms, related more distantly to tapeworm

151 sion at sharp fronts may provide a source of freshwater flux large enough to explain much of the fres

152 external forcing (radiation, winds, heat and freshwater fluxes) and the emergent turbulence, which tr

153 of the freshwater benefits achieved through freshwater-focused conservation.

154 of their metabolites were investigated in a freshwater food web from the urban Orge River, France.

155 ngs demonstrate the prevalence of PFASs in a freshwater food web with potential implications for ecol

156 pathways of REEs from waters and soils into freshwater food webs remain poorly understood.

157 hat plastic is now being transferred through freshwater food webs, and between adult passerines and t

158 droughts or flooding, can erode the base of freshwater food webs, with negative implications for the

159 beyond potable levels, endangering access to freshwater for millions of people.

160 Identifying marine or freshwater fossils that belong to the stem groups of the

161 s are harnessed here in this work to produce freshwater from brackish water, seawater and brine solut

162 The release of freshwater from icebergs drives an overturning circulati

163 rth Atlantic Current and diversion of Arctic freshwater from the western boundary into the eastern ba

164 Microplastics released into freshwaters from anthropogenic sources settle in the sed

165 The advancement of additional methods for freshwater generation is imperative to effectively addre

166 However, the catalogue of freshwater genomes remains limited, and most genome reco

167 keechobee also present an indirect threat of freshwater HAB blooms in the St.

168 disproportionate and intensifying impact on freshwater habitats.

169 he magnitude of positive interactions across freshwater habitats.

170 cyanobacterium that forms frequent blooms in freshwater habitats.

171 ic groups inhabiting terrestrial, marine and freshwater habitats.

172 covery of microplastic (MP) being present in freshwaters has stimulated research on the impacts of MP

173 and dramatic changes in the availability of freshwater have occurred as a result of human uses and l

174 In comparison with freshwaters, Hg methylation in open ocean waters appears

175 cumulative effects of adverse conditions in freshwater, including high spawning abundance, heavy fal

176 nnually and contributes ~17% of global river freshwater input to the oceans; its hydroclimatic variat

177 y extended to be able to disturb the AMOC by freshwater input.

178 nd that wind-driven routing of Arctic-origin freshwater intimately links conditions on the North West

179 causes changes in sea-ice mediated export of freshwater into areas of active deep convection, affecti

180 Thus, we employed a freshwater invertebrate, Daphnia magna, to investigate t

181 ons of wastewater-derived micropollutants in freshwater invertebrates (Gammarus spp.).

182 examples are bdelloid rotifers, microscopic freshwater invertebrates believed to have completely aba

183 astern Palearctic is a diversity hotspot for freshwater invertebrates.

184 metal and metal oxide nanoparticles (NPs) in freshwater is important for risk assessment and product

185 s of Lake Michigan-the world's fifth largest freshwater lake by volume-to determine how land cover an

186 ying bulk water were collected from a single freshwater lake impacted by PFAS and analyzed for PFAS b

187 ciated DNA sequencing (RAD-Seq) data from 73 freshwater lake populations and four marine ones (1,380

188 hgcAB genes in epilimnetic sediments from a freshwater lake that were experimentally amended with su

189 ion in the anoxic, sulfidic hypolimnion of a freshwater lake.

190 Lake spray aerosol (LSA) released from freshwater lakes has been identified on lakeshores and a

191 communities and metabolic characteristics in freshwater lakes in a changing world.

192 y, we reconstructed large phage genomes from freshwater lakes known to contain bacteria that oxidize

193 reasing the number of high-quality MAGs from freshwater lakes.

194 MeHg production in the anoxic hypolimnion of freshwater lakes.

195 We demonstrate its application using freshwater macroinvertebrate data from 35 countries in E

196 vidence indicates a diet of woody plants and freshwater macrophytes, supporting the hypothesis that t

197 responses in terms of migratory tactics and freshwater maturation rates.

198 In addition, freshwater megafauna experienced major range contraction

199 Globally, freshwater megafauna populations declined by 88% from 19

200 l modulates trophic structure in 210 natural freshwater microcosms (tank bromeliads) across Central a

201 Here we present a global assessment of freshwater mollusk (bivalves & gastropods) isotope data

202 icant southern biogeographic barrier between freshwater mussel faunas of the Western Indochina and Su

203 With freshwater mussel life expectancy ranging from a few yea

204 liminary study evaluated the response of the freshwater mussel, Elliptio complanata, after exposure t

205 The systematics of Oriental freshwater mussels (Bivalvia: Unionidae) is poorly known

206 Freshwater mussels (order Unionida) are among the world'

207 Freshwater mussels (Unionida) are one of the most imperi

208 We use freshwater mussels (Unionidae) as a model to reconstruct

209 shifts in mitochondrial gene order among the freshwater mussels (Unionoidea).

210 Freshwater mussels are ecosystem engineers and keystone

211 However, biological threats for freshwater mussels are still poorly known.

212 otential to accumulate in the soft tissue of freshwater mussels following exposure to diluted oil and

213 Asia and describe 12 species and 4 genera of freshwater mussels new to science.

214 rom terrestrial (n = 4), marine (n = 25) and freshwater (n = 13) environments and show positive sub-l

215 extreme temperatures and conditions found in freshwater often involves gene duplication.

216 orophyta (Ulvophyceae or green seaweeds, and freshwater or terrestrial Chlorophyceae and Trebouxiophy

217 stimulated research on the impacts of MP on freshwater organisms.

218 assess impacts of climate change on tropical freshwater organisms.

219 ncentrations may pose a particular threat to freshwater organisms.

220 rounds, which demonstrates that catastrophic freshwater outburst floods were not a prerequisite for l

221 nanoparticles and personal care products to freshwater photosynthetic organisms.

222 report on proof-of-concept experiments with freshwater phytoplankton supporting such framework.

223 Freshwater planarians, flatworms from order Tricladida,

224 en these concentrations and the frequency of freshwater plants possessing the bicarbonate use trait.

225 ntial for sex-specific parental effects in a freshwater population of three-spined sticklebacks Gaste

226 tat transitions into the water column, where freshwater populations (e.g., sticklebacks, cichlids, an

227 activated sludge microbiomes most closely to freshwater populations.

228 General understanding of freshwater positive interactions has been far outpaced b

229 Freshwater positive interactions occur among a wide rang

230 provides a promising method for sustainable freshwater production.

231 igate sediment microbial communities at four freshwater public beaches in southern Ontario, Canada an

232 ty, pointing to an urgent need for improving freshwater quantity and quality management to cope with

233 ly focused on the availability of sufficient freshwater quantity for providing supplies, but neglecte

234 Multiple freshwater ray-finned fishes also show a convergent incr

235 ally effective (50% of trips), primarily for freshwater recipient ecosystems (1442 versus 585 trips u

236 rom the Antarctic ice sheet, Earth's largest freshwater reservoir, results directly in global sea-lev

237 Groundwater is the world's largest freshwater resource and is critically important for irri

238 lex energy wastewater streams while reducing freshwater resource consumption.

239 is critical for a sustainable management of freshwater resources and infrastructures.

240 More than half of Earth's freshwater resources are held by the Antarctic Ice Sheet

241 To conserve freshwater resources, domestic and industrial wastewater

242 lable to expand irrigation without depleting freshwater resources.

243 lted from human activities and have degraded freshwater resources.

244 storage) could affect the sustainability of freshwater resources.

245 t U.S. Geological Survey streamgage sites in freshwater rivers.

246 gondii, with infectious stages traveling in freshwater runoff and being concentrated in particular l

247 f the prevalence and spatial distribution of freshwater salinization.

248 less attention has been paid to this area in freshwater salmon farming.

249 Freshwater samples (n = 48) demonstrated a maximum of 1.

250 on of these NPs for oil removal from natural freshwater samples and compared the results with the syn

251 In this study, freshwater samples were collected from two lakes in Mich

252 s, addressing the key environmental issue of freshwater scarcity.

253 r a variety of human uses, thus exacerbating freshwater scarcity.

254 Managed aquifer recharge (MAR) enhances freshwater security and augments local groundwater suppl

255 d P- or Si-bearing FeOx were deployed in (i) freshwater sediment rich in dissolved Fe(II) and P and (

256 demonstrated light-induced Fe(2+) release in freshwater sediments from Lake Constance.

257 he bio-geochemical Fe redox cycle in aquatic freshwater sediments.

258 nia magna (water fleas) and Hyalella azteca (freshwater shrimps) are commonly (13)C-enriched to incre

259 tion with data collected at other proglacial freshwater sites in Greenland and the Canadian Rockies,

260 A distinct ulcerative dermatitis known as "freshwater skin disease" is an emerging clinical and pat

261 essary components of the case definition for freshwater skin disease.

262 echanisms in neurobiology, the value of this freshwater snail has been also recognised in fields as d

263 are urgently needed to improve the status of freshwater species globally.

264 We sampled more than 1500 terrestrial and freshwater species in the Amazon and simulated conservat

265 resentation (based on 19,616 terrestrial and freshwater species).

266 creasing hydrologic variability is affecting freshwater species, and on the broader effects of enviro

267 A striking pattern is found among freshwater species, which have undergone a strong recove

268 ood protection but also fragment habitats of freshwater species.

269 concentrations from such a corrected SSD for freshwater species.

270 Ephydatia muelleri is a freshwater sponge found across the northern hemisphere.

271 ent plant (WWTP) effluent is used to augment freshwater supplies globally.

272 resulted in the widespread contamination of freshwater supplies with chemical toxins including persi

273 Groundwater provides critical freshwater supply, particularly in dry regions where sur

274 Organisms that live at the freshwater surface layer (the neuston) occupy a high ene

275 ntian Great Lakes are a vast, interconnected freshwater system spanning strong physicochemical gradie

276 g water quality and health status of a given freshwater system.

277 ish have been highly exposed to radiation in freshwater systems after the Chernobyl Nuclear Power Pla

278 Freshwater systems are also highly sensitive to environm

279 Most anthropogenic stressors affecting freshwater systems are qualitatively known.

280 algal) growth in many freshwater systems is associated with severe eutrophicat

281 ada) has been characterized, suggesting that freshwater systems may impact atmospheric aerosol loadin

282 mented, the aerosolization of cyanotoxins in freshwater systems remains understudied.

283 To date, the long-term impact of NPs in freshwater systems, particularly secondary NPs, is not w

284 seous nitrogen (N(2)) with the atmosphere in freshwater systems.

285 thermic hosts and similar in terrestrial and freshwater systems.

286 geners all occur in higher concentrations in freshwater than marine ecosystems but are more likely to

287 of vertebrate populations is much higher in freshwaters than in terrestrial or marine realms.

288 n extreme days (p99), almost 50% (7GW(e)) of freshwater thermal capacity is unavailable.

289 rthern Hemisphere and parallel adaptation to freshwater, threespine sticklebacks have become a model

290 mn has three distinct water masses: an upper freshwater-to-moderately saline stratum (0-3 m), an inte

291 sex in neonate turtles of two TSD species, a freshwater turtle (Trachemys scripta) and a marine turtl

292 n energy consumption, approximately half the freshwater use, and 25-64% in eutrophication potential,

293 Here we focused on the freshwater viviparid snails (Cipangopaludina chinensis c

294 he atmosphere contains 14% of the equivalent freshwater volume stored in lakes and rivers and is univ

295 Here, simulated freshwater wetland mesocosms were dosed with ENMs to ass

296 Capitalizing on Atlantic Canada's largest freshwater wetland, the Grand Lake Meadows (GLM) and the

297 served in aerosol particles relative to bulk freshwater, while enrichment of hydrophilic microcystin

298 eds will change in a warmer planet and where freshwater will be locally available to expand irrigatio

299 ne iceberg melting releases large volumes of freshwater within Greenland's fjords, yet its impact on

300 e assumed influence of isotopically depleted freshwater yielded by fluvial systems.