A big-microsite framework for soil carbon modeling.

abstract：:Describing the spatial and temporal dynamics of communities is essential for understanding the impacts of global environmental change on biodiversity and ecosystem functioning. Trait-based approaches can provide better insight than species-based (i.e. taxonomic) approaches into community assembly and ecosystem functio...

journal_title：Global change biology

authors： McLean M,Mouillot D,Lindegren M,Villéger S,Engelhard G,Murgier J,Auber A

更新日期：2019-11-01 00:00:00

abstract：:Efficient management of biodiversity requires a forward-looking approach based on scenarios that explore biodiversity changes under future environmental conditions. A number of ecological models have been proposed over the last decades to develop these biodiversity scenarios. Novel modelling approaches with strong the...

journal_title：Global change biology

authors： Titeux N,Henle K,Mihoub JB,Regos A,Geijzendorffer IR,Cramer W,Verburg PH,Brotons L

更新日期：2016-07-01 00:00:00

abstract：:The impact of climate change and of other anthropogenic pressures on the structure and composition of phytoplankton communities of large European rivers remains poorly documented. Here we report the findings of a study of the changes in the phytoplankton community of the middle segment of the river Loire over the past...

journal_title：Global change biology

authors： Larroudé S,Massei N,Reyes-Marchant P,Delattre C,Humbert JF

更新日期：2013-05-01 00:00:00

abstract：:Animals must balance a series of costs and benefits while trying to maximize their fitness. For example, an individual may need to choose how much energy to allocate to reproduction versus growth, or how much time to spend on vigilance versus foraging. Their decisions depend on complex interactions between environment...

journal_title：Global change biology

authors： Reimer JR,Mangel M,Derocher AE,Lewis MA

更新日期：2019-10-01 00:00:00

abstract：:The importance of herbivore-plant and soil biota-plant interactions in terrestrial ecosystems is amply recognized, but the effects of aboveground herbivores on soil biota remain challenging to predict. To find global patterns in belowground responses to vertebrate herbivores, we performed a meta-analysis of studies th...

journal_title：Global change biology

authors： Andriuzzi WS,Wall DH

更新日期：2017-09-01 00:00:00

abstract：:Increases in atmospheric CO2 levels and associated ocean changes are expected to have dramatic impacts on marine ecosystems. Although the Southern Ocean is experiencing some of the fastest rates of change, few studies have explored how Antarctic fishes may be affected by co-occurring ocean changes, and even fewer have...

journal_title：Global change biology

authors： Davis BE,Flynn EE,Miller NA,Nelson FA,Fangue NA,Todgham AE

更新日期：2018-02-01 00:00:00

abstract：:Greater climatic variability and extreme climatic events are currently emerging as two of the most important facets of climate change. Predicting the effects of extreme climatic events, such as heat waves, is a major challenge because they may affect both organisms and trophic interactions, leading to complex response...

journal_title：Global change biology

authors： Sentis A,Hemptinne JL,Brodeur J

更新日期：2013-03-01 00:00:00

abstract：:The combination of global and local stressors is leading to a decline in coral reef health globally. In the case of eutrophication, increased concentrations of dissolved inorganic nitrogen (DIN) and phosphorus (DIP) are largely attributed to local land use changes. From the global perspective, increased atmospheric CO...

journal_title：Global change biology

authors： Reymond CE,Lloyd A,Kline DI,Dove SG,Pandolfi JM

更新日期：2013-01-01 00:00:00

abstract：:Organic carbon (OC) sequestration in degraded semi-arid environments by improved soil management is assumed to contribute substantially to climate change mitigation. However, information about the soil organic carbon (SOC) sequestration potential in steppe soils and their current saturation status remains unknown. In ...

journal_title：Global change biology

authors： Wiesmeier M,Munro S,Barthold F,Steffens M,Schad P,Kögel-Knabner I

更新日期：2015-10-01 00:00:00

abstract：:The relationship between the timing of recurrent biological events and seasonal climatic patterns (i.e., phenology) is a crucial ecological process. Changes in phenology are increasingly linked to global climate change. However, current evidence of phenological responses to recent climate change is subjected to substa...

journal_title：Global change biology

authors： Diovisalvi N,Odriozola M,Garcia de Souza J,Rojas Molina F,Fontanarrosa MS,Escaray R,Bustingorry J,Sanzano P,Grosman F,Zagarese H

更新日期：2018-11-01 00:00:00

abstract：:Elevated atmospheric CO2 concentrations increase plant productivity and affect soil microbial communities, with possible consequences for the turnover rate of soil carbon (C) pools and feedbacks to the atmosphere. In a previous analysis (Van Groenigen et al., 2014), we used experimental data to inform a one-pool model...

journal_title：Global change biology

authors： van Groenigen KJ,Xia J,Osenberg CW,Luo Y,Hungate BA

更新日期：2015-12-01 00:00:00

abstract：:Few studies have quantitatively projected changes in demography in response to climate change, yet doing so can provide important insights into the processes that may lead to population declines and changes in species distributions. Using a long-term mark-recapture data set, we examined the influence of multiple direc...

journal_title：Global change biology

authors： Dybala KE,Eadie JM,Gardali T,Seavy NE,Herzog MP

更新日期：2013-09-01 00:00:00

abstract：:Globally, spatial distributions of fish stocks are shifting but although the role of climate change in range shifts is increasingly appreciated, little remains known of the likely additional impact that high levels of fishing pressure might have on distribution. For North Sea cod, we show for the first time and in gre...

journal_title：Global change biology

authors： Engelhard GH,Righton DA,Pinnegar JK

更新日期：2014-08-01 00:00:00

abstract：:Air temperatures in the arid western United States are predicted to increase over the next century. These increases will likely impact the distribution of plant species, particularly dioecious species that show a spatial segregation of the sexes across broad resource gradients. On the basis of spatial segregation patt...

journal_title：Global change biology

authors： Hultine KR,Burtch KG,Ehleringer JR

更新日期：2013-11-01 00:00:00

abstract：:The consequences of the 2019-2020 bushfires in Australia were also devastating for the aquatic biota. Following abnormal rainfall events in burnt areas, widespread mortality events including fish and invertebrates were recorded in estuarine and freshwater systems. Such negative impacts on aquatic resources highlight t...

journal_title：Global change biology

authors： Silva LGM,Doyle KE,Duffy D,Humphries P,Horta A,Baumgartner LJ

更新日期：2020-10-01 00:00:00

abstract：:Biological invasions are one of the biggest threats to global biodiversity. Marine artificial structures are proliferating worldwide and provide a haven for marine invasive species. Such structures disrupt local hydrodynamics, which can lead to the formation of oxygen-depleted microsites. The extent to which native fa...

journal_title：Global change biology

authors： Lagos ME,Barneche DR,White CR,Marshall DJ

更新日期：2017-06-01 00:00:00

abstract：:Recent decades have seen profound changes in species abundance and community composition. In the marine environment, the major anthropogenic drivers of change comprise exploitation, invasion by nonindigenous species, and climate change. However, the magnitude of these stressors has been widely debated and we lack empi...

journal_title：Global change biology

authors： Givan O,Edelist D,Sonin O,Belmaker J

更新日期：2018-01-01 00:00:00

abstract：:Changing climates are altering wildlife habitats and wildlife behavior in complex ways. Here, we examine how changing spring snow cover dynamics and early season forage availability are altering grizzly bear (Ursus arctos) behavior postden emergence. Telemetry data were used to identify spring activity dates for 48 in...

journal_title：Global change biology

authors： Rickbeil GJM,Coops NC,Berman EE,McClelland CJR,Bolton DK,Stenhouse GB

更新日期：2020-07-28 00:00:00

abstract：:One of the greatest current challenges to human society is ensuring adequate food production and security for a rapidly growing population under changing climatic conditions. Climate change, and specifically rising temperatures, will alter the suitability of areas for specific crops and cultivation systems. In order t...

journal_title：Global change biology

authors： Tito R,Vasconcelos HL,Feeley KJ

更新日期：2018-02-01 00:00:00

abstract：:Climate change likely will lead to increasingly favourable environmental conditions for many parasites. However, predictions regarding parasitism's impacts often fail to account for the likely variability in host distribution and how this may alter parasite occurrence. Here, we investigate potential distributional shi...

journal_title：Global change biology

authors： Pickles RS,Thornton D,Feldman R,Marques A,Murray DL

更新日期：2013-09-01 00:00:00

abstract：:Crop production will likely face enormous challenges against the occurrences of extreme climatic events projected under future climate change. Heat waves that occur at critical stages of the reproductive phase have detrimental impacts on the grain yield formation of rice (Oryza sativa). Accurate estimates of these imp...

journal_title：Global change biology

authors： Sun T,Hasegawa T,Liu B,Tang L,Liu L,Cao W,Zhu Y

更新日期：2021-01-01 00:00:00

abstract：:Carbon emissions from land-use changes in tropical dry forest systems are poorly understood, although they are likely globally significant. The South American Chaco has recently emerged as a hot spot of agricultural expansion and intensification, as cattle ranching and soybean cultivation expand into forests, and as s...

journal_title：Global change biology

authors： Baumann M,Gasparri I,Piquer-Rodríguez M,Gavier Pizarro G,Griffiths P,Hostert P,Kuemmerle T

更新日期：2017-05-01 00:00:00

abstract：:Coastal wetlands are among the most productive and carbon-rich ecosystems on Earth. Long-term carbon storage in coastal wetlands occurs primarily belowground as soil organic matter (SOM). In addition to serving as a carbon sink, SOM influences wetland ecosystem structure, function, and stability. To anticipate and mit...

journal_title：Global change biology

authors： Osland MJ,Gabler CA,Grace JB,Day RH,McCoy ML,McLeod JL,From AS,Enwright NM,Feher LC,Stagg CL,Hartley SB

更新日期：2018-11-01 00:00:00

abstract：:Some recent modelling papers projecting smaller fish sizes and catches in a warmer future are based on erroneous assumptions regarding (i) the scaling of gills with body mass and (ii) the energetic cost of 'maintenance'. Assumption (i) posits that insurmountable geometric constraints prevent respiratory surface areas ...

journal_title：Global change biology

authors： Lefevre S,McKenzie DJ,Nilsson GE

更新日期：2017-09-01 00:00:00

abstract：:Continental margins are disproportionally important for global primary production, fisheries and CO2 uptake. However, across the Northeast Atlantic shelves, there has been an ongoing summertime decline of key biota-large diatoms, dinoflagellates and copepods-that traditionally fuel higher tropic levels such as fish, s...

journal_title：Global change biology

authors： Schmidt K,Birchill AJ,Atkinson A,Brewin RJW,Clark JR,Hickman AE,Johns DG,Lohan MC,Milne A,Pardo S,Polimene L,Smyth TJ,Tarran GA,Widdicombe CE,Woodward EMS,Ussher SJ

更新日期：2020-10-01 00:00:00

abstract：:Exponentially rising CO2 (currently ~400 μatm) is driving climate change and causing acidification of both marine and freshwater environments. Physiologists have long known that CO2 directly affects acid-base and ion regulation, respiratory function and aerobic performance in aquatic animals. More recently, many studi...

journal_title：Global change biology

authors： Ellis RP,Urbina MA,Wilson RW

更新日期：2017-06-01 00:00:00

abstract：:Maize, in rotation with soybean, forms the largest continuous ecosystem in temperate North America, therefore changes to the biosphere-atmosphere exchange of water vapor and energy of these crops are likely to have an impact on the Midwestern US climate and hydrological cycle. As a C4 crop, maize photosynthesis is alr...

journal_title：Global change biology

authors： Hussain MZ,Vanloocke A,Siebers MH,Ruiz-Vera UM,Cody Markelz RJ,Leakey AD,Ort DR,Bernacchi CJ

更新日期：2013-05-01 00:00:00

abstract：:Tree populations usually show adaptations to their local environments as a result of natural selection. As climates change, populations can become locally maladapted and decline in fitness. Evaluating the expected degree of genetic maladaptation due to climate change will allow forest managers to assess forest vulnera...

journal_title：Global change biology

authors： Frank A,Howe GT,Sperisen C,Brang P,Clair JBS,Schmatz DR,Heiri C

更新日期：2017-12-01 00:00:00

abstract：:Invasive alien plant species threaten native biodiversity, disrupt ecosystem functions and can cause large economic damage. Plant invasions have been predicted to further increase under ongoing global environmental change. Numerous case studies have compared the performance of invasive and native plant species in resp...

journal_title：Global change biology

authors： Liu Y,Oduor AMO,Zhang Z,Manea A,Tooth IM,Leishman MR,Xu X,van Kleunen M

更新日期：2017-08-01 00:00:00

abstract：:Global climate change is affecting carbon cycling by driving changes in primary productivity and rates of carbon fixation, release and storage within Earth's vegetated systems. There is, however, limited understanding of how carbon flow between donor and recipient habitats will respond to climatic changes. Macroalgal-...

journal_title：Global change biology

authors： Pessarrodona A,Moore PJ,Sayer MDJ,Smale DA

更新日期：2018-09-01 00:00:00