INQUA 2015: Climate change in the tropical South Pacific during the Late Quaternary

October 27, 2014
WDG

 

inqua-JPPosted on behalf of Prof. David Sear (University of Southampton)

The next INQUA Congress will be held in Nagoya (Japan) on July 27 – August 2, 2015

This is a call for contributions to session P05 on ‘Climate change in the tropical South Pacific during the Late Quaternary’.

The session abstract is as follows:
Establishing well dated, quantitative, highly resolved palaeoclimate data for the major climate systems of the tropical south Pacific has become a research priority owing to the paucity of instrumental data from this critical region of the Earth. Whilst the quantity of proxy climate data for this region is increasing rapidly, compared to records from the Northern Hemisphere there is a surprising paucity especially when considering the importance of this region to global climate. Such information is vital for fully understanding inter-hemispheric climate linkages, global energy fluxes and the long-term evolution of natural climate variability such as the El Nino-Southern Oscillation. The dearth of pre-industrial climate records from this region contributes to large uncertainties associated with future climate change impacts far beyond the south Pacific. This session aims to bring together researchers working on Late Quaternary ocean/climate proxies with those whose research lies in modelling ocean-climate processes and dynamics in the tropical south pacific region, and their implications for global climate.

We hope this session will be of interest to you. If you plan to contribute to this session, please submit your abstract before December 20, 2014 click here.

We hope to see you at INQUA 2015.

Best Wishes,

David Sear, Julian Sachs, Kim Cobb, John Chiang, Peter Langdon – session conveners.

Professor David Sear
Geography & Environment
University of Southampton

Past environmental change in the Amazon basin – AGU video

September 8, 2014
WDG

Hayley Keen’s video “Past environmental change in the Amazon basin” has been shortlisted for the American Geophysical Union (AGU) student video prize. Please watch and like Hayley’s video; top “Liked” videos will win entry to the AGU 2014 Fall meeting.

View all the videos on the AGU YouTube channel.

African ecology in context

May 14, 2014
WDG

afqua-logo-header-copy

I am delighted to be organizing a focus session at the first AfQUA meeting. The session seeks to bring together ecologists and palaeoecologists working in Africa. If you are interested in getting involved please contact me (William Gosling) directly. For further information on the conference visit the AfQUA website or twitter feed.

Focus session 1: African ecology in context
The African continent spans over 80 degrees of latitude, nearly 6000 m of altitude and around 30 million km2 consequently it contains a vast array of unique ecosystems. Many of the African ecosystems are under direct pressure from human activity and are threatened by on-going and projected climate change. However, management and conservation of the modern African ecosystems is hampered by a paucity of data on their natural history. Studies of observations of ecosystems spanning >30 years are rare so we are heavily reliant on examination of the fossil record to place modern ecology in a long-term (>50 year) context. Information on past ecosystems can be extracted through the examination of a range of biological indicators (e.g. pollen, carbon isotopes, charcoal) found within marine and lake sediments. However, interpretation of the sediments and the proxies they contain with the ecosystems observed today is challenging because of timescale and interpretation issues. The aim of this session is to bring together modern ecologists and paleo-ecologists working in Africa to present the state-of-the-art understanding of ecosystems past and present, and explore how we can improve understanding of timescales and proxy interpretation to place these threatened ecosystems in context.

Gosling PhD thesis 2004

April 10, 2014
WDG

Gosling, W.D. (2004) Characterisation of Amazonian forest and savannah ecosystems by their modern pollen spectra.  PhD Thesis, Department of Geography, University of Leicester.

PhD-wdg

WDG Bolivia (2002)

Abstract:

Controversy surrounds the Quaternary palaeoenvironmental history of Amazonia. It is unclear whether moist evergreen forest, savannah or seasonally dry forest dominated the Amazon basin at the last glacial maximum (c. 21,000 years B.P.). In part the uncertainty surrounding the palaeoenvironmental history of Amazonia stems from a poor understanding of the ecological significance of the fossil pollen records from the region. In order to improve interpretations of the fossil pollen record it is essential to better understand the nature of the pollen rain produced by modern ecosystems.

In this thesis, three Neotropical ecosystems equivalent to those alluded to above were characterised by their modern pollen rain. This was achieved by examining samples collected in artificial pollen traps located within permanent (50 x 200 m) vegetation plots in the Noel Kempff Mercado National Park area, Bolivia. In each plot 10 traps were sampled for one field season (September 1998 to September 1999, or September 2000 to September 2001) and 5 traps were sampled from two additional field seasons (between 1998 and 2001). Pollen counts of at least 100 grains were made for each trap. In total 318 pollen taxa were distinguished, of which 116 were identified. The characteristic pollen from each of the three ecosystems were determined through a series of steps: spatial and temporal variations were explored using Spearman’s Rank correlations, the distinctive taxa of each ecosystem were identified using Principal Components Analyses (PCA), and the representativity of the pollen for each ecosystem was examined by comparing pollen and vegetation abundances. These analyses revealed a small number of taxa that can be used to characterize these ecosystems. Further PCA showed that it is possible to differentiate between the ecosystems by assessing the relative proportions of Didymopanax, Alchornea, Anadenanthera, Melastomataceae/Combretaceae, Moraceae/Urticaceae, Myrtaceae, Palmae, Pteropsidia (trilete), Poaceae and Solanum. These findings mean that it is now possible to detect these ecosystems in the fossil pollen record and consequently further information regarding the nature of the vegetation change in the Amazon basin can be gained.

Supervisors: Dr. Francis Mayle (University of Leicester, now at University of Reading) and Dr. Nicholas Tate (University of Leicester)

Examined by: Prof. Henry Lamb (University of Aberystwyth) and Prof. Andrew Millington (University of Leicester, now at Texas A & M), April 2004.

To borrow a copy from University of Leicester Library (item ID 7507349613), or download directly: Volume 1, Volume 2, and CD, or via the University of Leicester FigShare.

Continue Reading

Fieldwork in Ecuador 2013

December 13, 2013
WDG

Nick and Will with Carman (director of the Pindo Mirador biological station)

Nick and Will with Carman (director of the Pindo Mirador biological station)

Three members of the PCRG (William Gosling, Encarni Montoya and Nick Loughlin) visited Ecuador (November-December 2013) to develop collaborations with Ecuadorian institutions, recover more lake sediments, and find new potential sites for projects. Below are some photos from:

  1. Lake Pindo, 
  2. Lake Huila, and
  3. Lake Erazo.

Full reports on specific aspects of the fieldwork to follow.

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PDRA: Past environmental and climate change in West Africa

March 29, 2013
WDG

Full time Post-Doctoral Research Associate, Temporary contract for 36 months, £27,854 – £36,298
Department of Environment, Earth & Ecosystems, Faculty of Science, The Open University

Closing date : 25/04/2013

The PDRA project will descover more about past vegetation and climate change in Lake Bosumtwi (Ghana)

The PDRA project will descover more about past vegetation and climate change in Lake Bosumtwi (Ghana)

We are seeking a PDRA to study past climate and vegetation change in tropical West Africa as part of the NERC-funded “500,000 years of solar irradiance, climate and vegetation changes” project. You will join a multidisciplinary collaborative research team and will work with an international network of project partners. The project will utilise cutting-edge organic geochemical techniques to generate the longest continuous record of fossil pollen chemistry change. The study will build upon previous research into the sediments recovered from Lake Bosumtwi (Ghana). The data generated will shed new light on the role of climate in driving vegetation change in the tropics.

You will already hold a PhD, or be near to completing your PhD, in a relevant scientific discipline with a background in the Earth or Environmental sciences. You must have substantial experience of organic geochemistry or tropical palynology, with well-developed self-management skills and the ability to prioritise effectively.

The PDRA will work with an associated PhD student looking at modern pollen-vegetation relationships in the same region.

The PDRA will work with an associated PhD student looking at modern pollen-vegetation relationships in the same region.

Co-Investigators:
Dr Barry Lomax (University of Nottingham)
Dr Wesley Fraser (Oxford Brookes University)

Project partners:
Prof . Yadvinder Malhi (University of Oxford)
Prof. Mark Sephton (Imperial College London)
Dr Tim Shanahan (University of Texas, Austin)
Dr Stephen Abu-Bredu (Forestry Research Institute of Ghana)

For further particulars click here.
For information on how to apply click here visit The Open University jobs web site.

Associated PhD project.

The PDRA will be part of an international team; partners based at University of Nottingham, Oxford Brooks University, Imperial College London, Oxford University, University of Texas at Austin and the Forestry Research Institute of Ghana

The PDRA will be part of an international team; partners based at University of Nottingham, Oxford Brooks University, Imperial College London, Oxford University, University of Texas at Austin and the Forestry Research Institute of Ghana

PCRG publications 2010

February 15, 2013
WDG

 

 

Bush, M.B., Hanselman, J.A. & Gosling, W.D. (2010) Non-linear climate change and Andean feedbacks: An imminent turning point? Global Change Biology, 16, 3223-3232

Gosling, W.D. (2010) Evolutions Atlas. Fragile web: What’s next for nature (ed. by J.A. Slivertown). Natural History Museum & University of Chicago Press, London.

PCRG publications 2008

February 15, 2013
WDG

Gosling, W.D. & Bunting, M.J. (2008) A role for palaeoecology in anticipating future change in mountain regions? Palaeogeography Palaeoclimatology Palaeoecology, 259, 1-5

Gosling, W.D., Bush, M.B., Hanselman, J.A. & Chepstow-Lusty, A. (2008) Glacial-interglacial changes in moisture balance and the impact on vegetation in the southern hemisphere tropical Andes (Bolivia/Peru). Palaeogeography Palaeoclimatology Palaeoecology, 259, 35-50

PCRG publications 2005

February 15, 2013
WDG

Bush, M.B., Hansen, B.C.S., Rodbell, D.T., Seltzer, G.O., Young, K.R., Leon, B., Abbott, M.B., Silman, M.R. & Gosling, W.D. (2005) A 17,000-year history of Andean climate and vegetation change from Laguna de Chochos, Peru. Journal of Quaternary Science, 20, 703-714

Gosling, W.D. & Bush, M.B. (2005) A biogeographic comment on Wüster et al. (2005): Tracing an invasion: Landbridges, refugia, and the phylogeography of the neotropical rattlesnake (serpentes: Viperidae: Crotalus durissus). Molecular Ecology, 14, 3615-3617

Gosling, W.D., Mayle, F.E., Tate, N.J. & Killeen, T. (2005) Modern pollen-rain characteristics of tall terra firme moist evergreen forest, southern Amazonia. Quaternary Research, 64, 284-297

Hanselman, J.A., Gosling, W.D., Ralph, G.M. & Bush, M.B. (2005) Contrasting histories of MIS 5e and the Holocene from Lake Titicaca (Bolivia/Peru). Journal of Quaternary Science, 20, 663-670

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