|Abstracts on Global Climate Change|
A stage-based study of drought response in Cryptantha flava (Boraginaceae): Gas exchange, water use efficiency, and whole plant performance
Casper, BB Forseth, IN Wait, DA
AMERICAN JOURNAL OF BOTANY 93:7 978-987
Models of global climate change predict an increase in the frequency of major droughts, yet we know little about the consequences of drought for the demography of natural populations. This study examined a population of the semi-desert perennial Cryptantha flava (Boraginaceae) to determine how plants of different developmental stages respond to drought through changes in leaf gas exchange, leaf water potential, water use efficiency, growth, and reproduction. In two of the four years, drought was applied using rainout shelters, and a severe natural drought occurred in another. Small, presumably younger, plants sometimes had lower rates of maximum photosynthesis, lower leaf water potentials, and lower instantaneous or integrated water-use efficiency than large plants. Small plants also had higher relative growth rates and lower reproductive effort. Large plants with evidence of shrinkage from a previously larger size often produced less growth and reproduction than large healthy plants, suggesting a decline in plant vigor with age. Drought depressed gas exchange and leaf water potentials equally in all plant stages. Thus, leaf-level physiological attributes provide no clues for why drought reduces growth more strongly in large plants. The results point to several additional avenues of research relevant to understanding stage-dependent or age-dependent plant performance under drought conditions.
The persuasive power of mediated risk experiences
Meijnders, A Midden, C McCalley, T
PERSUASIVE TECHNOLOGY 3962: 50-54
This paper discusses the use of multimedia techniques and augmented reality tools to bring across the risks of global climate change. We look back on a series of experiments showing that vividness is a key factor in creating emotional risk responses and fostering attitude change through systematic information processing. However, the effects were modest even when vivid and concrete images and texts were used in combination with ominous sounds and music. The next step therefore is to explore and make use of the possibilities of multimedia techniques and augmented reality to provide people with a simulated risk experience. This paper concludes with a preview of this work, the focus of which is on the sense of presence.
Are dust storm activities in North China related to Arctic ice-snow cover?
Zhang, JS Peng, GB Huang, M Zhang, SH
GLOBAL AND PLANETARY CHANGE 52:1-4 225-230
The generation and development of dust storms are controlled by land surface conditions and atmospheric circulations. The latter, in turn, is influenced by the global ice-snow cover. In this study, we examine the relationship between the characteristics of dust storm activities in north China and the changes of global climate patterns. In particular, we are interested in whether Arctic ice-snow cover is related to the dust storm frequencies and intensities in north China. Our analysis, based on the monthly data for the period from 1954 to 1994, shows that this is indeed the case. This result suggests that the Arctic ice-snow cover can be used for the long-term prediction of dust storm activities in north China, and dust storm activities also serve as an indicator of global climate change. (C) 2006 Published by Elsevier B.V.
The generational divide in support for environmental policies: European evidence
Hersch, J Viscusi, WK
CLIMATIC CHANGE 77:1-2 121-136
This article examines age variations in support for environmental protection policies that affect climate change using a sample of over 14,000 respondents to a 1999 Eurobarometer survey. There is a steady decline with age in whether respondents are willing to incur higher gasoline prices to protect the environment. This relationship remains after controlling for socioeconomic characteristics. There are age-related differences in information about environmental risks, information sources about the environment, perceived health risks from climate change, and degree of worry about climate change. However, taking these factors into account does not eliminate the age variation in willingness to pay more for gasoline to protect the environment.
Effects of elevated atmospheric carbon dioxide on biomass and carbon accumulation in a model regenerating longleaf pine community
Runion, GB Davis, MA Pritchard, SG Prior, SA Mitchell, RJ Torbert, HA Rogers, HH Dute, RR
JOURNAL OF ENVIRONMENTAL QUALITY 35:4 1478-1486
Plant species vary in response to atmospheric CO2 concentration due to differences in physiology, morphology, phenology, and symbiotic relationships. These differences make it very difficult to predict how plant communities will respond to elevated CO2. Such information is critical to furthering our understanding of community and ecosystem responses to global climate change. To determine how a simple plant community might respond to elevated CO2, a model regenerating longleaf pine community composed of five species was exposed to two CO2 regimes (ambient, 365 mu mol mol(-1) and elevated, 720 mu mol mol(-1)) for 3 yr. Total above- and belowground biomass was 70 and 49% greater, respectively, in CO2-enriched plots. Carbon (C) content followed a response pattern similar to biomass, resulting in a significant increase of 13.8 Mg C ha(-1) under elevated CO2. Responses of individual species, however, varied. Longleaf pine (Pinus palustris Mill.) was primarily responsible for the positive response to CO2 enrichment. Wiregrass (Aristida stricta Michx.), rattlebox (Crotalaria rotundifolia Walt. Ex Gruel.), and butterfly weed (Asclepias tuberosa L.) exhibited negative above- and belowground biomass responses to elevated CO2, while sand post oak (Quercus margaretta Ashe) did not differ significantly between CO2 treatments. As with pine, C content followed patterns similar to biomass. Elevated CO2 resulted in alterations in community structure. Longleaf pine comprised 88% of total biomass in CO2-enriched plots, but only 76% in ambient plots. In contrast, wire-grass, rattlebox, and butterfly weed comprised 19% in ambient CO2 plots, but only 8% under high CO2. Therefore, while longleaf pine may perform well in a high CO2 world, other members of this community may not compete as well, which could alter community function. Effects of elevated CO2 on plant communities are complex, dynamic, and difficult to predict, clearly demonstrating the need for more research in this important area of global change science.
Some phenomena of the interaction between vegetation and a atmosphere on multiple scales
Hu, YQ Chen, JB Zheng, YR Li, GQ Zuo, HC
ADVANCES IN ATMOSPHERIC SCIENCES 23:4 639-648
This article studies the response of the distribution pattern and the physiological characteristics of the ecosystem to the spontaneous precipitation and the interaction between vegetation and the atmosphere on multiple scales in arid and semi-arid zones, based on measured data of the ecological physiological 14 parameters in the Ordas Plateau of northern China. The results show that the vegetation biomass and the energy use efficiency of photosynthesis are especially sensitive to the annual precipitation, strong and complex interactions exist between the vegetation and the atmosphere on multiple scales leading to supernormal thermal heterogeneity of the underlying surface, the strong vortex movement and turbulence. This study can facilitate understanding of the land surface processes and the influences of global climate change as well as human activities on the human environment in the arid and semi-arid zones. It also aids in improving the parameterization schemes of turbulent fluxes of a heterogeneous underlying surface for land surface processes in climate models.
A matter of timing: changes in the first date of arrival and last date of departure of Australian migratory birds
Beaumont, LJ McAllan, IAW Hughes, L
GLOBAL CHANGE BIOLOGY 12:7 1339-1354
Although there is substantial evidence that Northern Hemisphere species have responded to climatic change over the last few decades, there is little documented evidence that Southern Hemisphere species have responded in the same way. Here, we report that Australian migratory birds have undergone changes in the first arrival date (FAD) and last date of departure (LDD) of a similar magnitude as species from the Northern Hemisphere. We compiled data on arrival and departure of migratory birds in south-east Australia since 1960 from the published literature, Bird Observer Reports, and personal observations from bird watchers. Data on the FAD for 24 species and the LDD for 12 species were analyzed. Sixteen species were short- to middle-distance species arriving at their breeding grounds, seven were long-distance migrants arriving at their nonbreeding grounds, and one was a middle-distance migrant also arriving at its nonbreeding ground. For 12 species, we gathered data from more than one location, enabling us to assess the consistency of intraspecific trends at different locations. Regressions of climate variables against year show that across south-east Australia average annual maximum and minimum temperatures have increased by 0.17 degrees C and 0.13 degrees C decade(-1) since 1960, respectively. Over this period there has been an average advance in arrival of 3.5 days decade(-1); 16 of the 45 time-series (representing 12 of the 24 species studied) showed a significant trend toward earlier arrival, while only one time-series showed a significant delay. Conversely, there has been an average delay in departure of 5.1 days decade(-1); four of the 21 departure time-series (four species) showed a significant trend toward later departure, while one species showed a significant trend toward earlier departure. However, differences emerge between the arrival and departure of short- to middle-distance species visiting south-east Australia to breed compared with long-distance species that spend their nonbreeding period here. On average, short- to middle-distance migrants have arrived at their breeding grounds 3.1 days decade(-1) earlier and delayed departure by 8.1 days decade(-1), thus extending the time spent in their breeding grounds by similar to 11 days decade(-1). The average advance in arrival at the nonbreeding grounds of long-distance migrants is 6.8 days decade(-1). These species, however, have also advanced departure by an average of 6.9 days decade(-1). Hence, the length of stay has not changed but rather, the timing of events has advanced. The patterns of change in FAD and LDD of Australian migratory birds are of a similar magnitude to changes undergone by Northern Hemisphere species, and add further evidence that the modest warming experienced over the past few decades has already had significant biological impacts on a global scale.
Long-term population declines in Afro-Palearctic migrant birds
Sanderson, FJ Donald, PF Pain, DJ Burfield, IJ van Bommel, FPJ
BIOLOGICAL CONSERVATION 131:1 93-105
We present the first continent-wide analysis of the population trends of European breeding birds to show that populations of Afro-Palearctic migrant birds have shown a pattern of sustained, often severe, decline. The mean trend of inter-continental migrants was significantly negative between 1970 and 1990 and non-significantly so between 1990 and 2000. Mean population trends were positively correlated between periods, suggesting little change in the trajectory of most migrant species’ populations over this 30-year period. In both periods, trends of inter-continental migrants were significantly more negative than those of short-distance migrants or residents. This negative trend appeared to be largely, although not entirely, due to declines in species wintering in dry, open habitats in Africa. Analyses of trends of 30 closely related pairs of species, one a long-distance migrant and the other not, indicated significantly more negative trends in the former, irrespective of breeding habitat. Conservation action to address these declines is required under the Convention on Migratory Species and the Pan-European Biological and Landscape Diversity Strategy, to which most European countries are signatories and which aim, respectively, to conserve migratory species and to halt the loss of biodiversity by 2010. Our results indicate that more conservation action may be required outside Europe to achieve these targets. Further research is needed to assess whether the declines are caused by factors operating on the birds’ wintering grounds, breeding grounds or on migration routes, and to identify ways to reverse them. (c) 2006 Elsevier Ltd. All rights reserved.
Ecotypic variation in the context of global climate change: revisiting the rules
Millien, V Lyons, SK Olson, L Smith, FA Wilson, AB Yom-Tov, Y
ECOLOGY LETTERS 9:7 853-869
Patterns of ecotypic variation constitute some of the few ‘rules’ known to modern biology. Here, we examine several well-known ecogeographical rules, especially those pertaining to body size in contemporary, historical and fossil taxa. We review the evidence showing that rules of geographical variation in response to variation in the local environment can also apply to morphological changes through time in response to climate change. These rules hold at various time scales, ranging from contemporary to geological time scales. Patterns of body size variation in response to climate change at the individual species level may also be detected at the community level. The patterns underlying ecotypic variation are complex and highly context-dependent, reducing the ‘predictive-power’ of ecogeographical rules. This is especially true when considering the increasing impact of human activities on the environment. Nonetheless, ecogeographical rules may help interpret the likely influences of anthropogenic climate change on ecosystems. Global climate change has already influenced the body size of several contemporary species, and will likely have an even greater impact on animal communities in the future. For this reason, we highlight and emphasise the importance of museum specimens and the continued need for documenting the earth’s biological diversity.
Ecosystem recovery: heathland response to a reduction in nitrogen deposition
Power, SA Green, ER Barker, CG Bell, JNB Ashmore, MR
GLOBAL CHANGE BIOLOGY 12:7 1241-1252
Atmospheric deposition of nitrogen is responsible for widespread changes in the structure and function of sensitive seminatural ecosystems. The proposed reduction in emissions of nitrogenous pollutants in Europe under the Gothenburg Protocol raises the question of whether affected ecosystems have the potential to recover to their previous condition and, if so, over what timescale. Since 1998, we have monitored the response of a lowland heathland in southern England following the cessation of a long-term nitrogen addition experiment, and subsequent management, assessing changes in vegetation growth and chemistry, soil chemistry and the soil microbial community. Persistent effects of earlier nutrient loading on Calluna growth and phenology, and on the abundance of lichens, were apparent up to 8 years after nitrogen additions ceased, indicating the potential for long-term effects of modest nutrient loading (up to 15.4 kg N ha(-1) yr(-1), over 7 years) on heathland ecosystems. The size and activity of the soil microbial community was elevated in former N-treated plots, 6-8 years after additions ceased, suggesting a prolonged effect on the rate of nutrient cycling. Although habitat management in 1998 reduced nitrogen stores in plant biomass, effects on belowground nitrogen stores were small. Although some parameters (e.g. soil pH) recover pretreatment levels relatively rapidly, others (e.g. vegetation cover and microbial activity) respond much more slowly, indicating that the ecological effects of even small increases in nitrogen deposition will persist for many years after deposition inputs are reduced. Indeed, calculations suggest that the additional soil nitrogen storage associated with 7 years of experimental nitrogen inputs could sustain the observed effects on plant growth and phenology for several decades. Carry over effects on plant phenology and sensitivity to drought suggest that the persistence of vegetation responses to nitrogen deposition should be integrated into long-term assessments of the impact of global climate change on sensitive ecosystems.
Mediated modeling of the impacts of enhanced UV-B radiation on ecosystem services
van den Belt, M Bianciotto, OA Costanza, R Demers, S Diaz, S Ferreyra, GA Koch, EW Momo, FR Vernet, M
PHOTOCHEMISTRY AND PHOTOBIOLOGY 82:4 865-877
This article describes the use of group model building to facilitate interaction with stakeholders, synthesize research results and assist in the development of hypotheses about climate change at the global level in relation to UV-B radiation and ecosystem service valuation. The objective was to provide a platform for integration of the various research components within a multidisciplinary research project as a basis for interaction with stakeholders with backgrounds in areas other than science. An integrated summary of the scientific findings, along with stakeholder input, was intended to produce a bridge between science and policymaking. We used a mediated modeling approach that was implemented as a pilot project in Ushuaia, Argentina. The investigation was divided into two participatory workshops: data gathering and model evaluation. Scientists and the local stakeholders supported the valuation of ecosystem services as a useful common denominator for integrating the various scientific results. The concept of economic impacts in aquatic and marsh systems was represented by values for ecosystem services altered by UV-B radiation. In addition, direct local socioeconomic impacts of enhanced UV-B radiation were modeled, using data from Ushuaia. We worked with 5 global latitudinal regions, focusing on net primary production and biomass for the marine system and on 3 plant species for the marsh system. Ecosystem service values were calculated for both sectors. The synthesis model reflects the conclusions from the literature and from experimental research at the global level. UV-B is not a significant stress for the marshes, relative to the potential impact of increases in the sea level. Enhanced UV-B favors microbial dynamics in marine systems that could cause a significant shift from primary producers to bacteria at the community level. In addition, synergetic effects of UV-B and certain pollutants potentiate the shift to heterotrophs. This may impact the oceanic carbon cycle by increasing the ratio of respiratory to photosynthetic organisms in surface waters and, thus, the role of the ocean as a carbon sink for atmospheric CO2. In summary, although changes in the marine sector due to anthropogenic influences may affect global climate change, marshes are expected to primarily be affected by climate change.
Beyond Kyoto: A tax-based system for the global reduction of greenhouse gas emissions
Kahn, JR Franceschi, D
ECOLOGICAL ECONOMICS 58:4 778-787
The Kyoto Protocol represents an initial step in terms of solving the problem of global climate change. However, as with most first steps, the Kyoto Protocol must be followed by a full journey in order to reach the desired goal of preventing catastrophic global warming. The Kyoto Protocol does not lead to the necessary decline in the atmospheric concentrations of greenhouse gases, particularly because emissions of developing countries are not specifically addressed in the Protocol. We suggest a new agreement based on carbon taxes as a possibility to build upon the Kyoto Protocol and eventually freeze atmospheric concentrations at a level that prevents catastrophic climate change. (c) 2005 Elsevier B.V. All rights reserved.