Novel soil monitoring

Dr Ernesto Saiz has visited the Birmingham Institute of Forest Research (BiFOR) free-air CO2 enrichment (FACE) experiment located in Staffordshire. He was accompanied by some of the PIs of the project he is involved in: Prof Sami Ullah (University of Birmingham) and Prof Sameer Sonkusale (Tufts University), in addition to some other researchers, and a distinguished visiting fellow from the University of Delaware Prof Delphis F. Levia. The main objective was to show the engineers (from Tufts) in-situ what are the main characteristics of the soil (texture and moisture) where the prototypes developed will be deployed. With this visit the engineers can now make the final modifications needed for the device to work wireless in the field. The state-of-the-art sensor probe will be capable of continuous monitoring of potassium, ammonium, nitrate and pH in the soil.

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Pompeii – Climate change impacts

Pompeii is often described as a place frozen in time, when in October 79AD, Vesuvius  erupted and plunged the surrounding areas into darkness for three days, ash and pumice rained down on pompeii.

The site is vast and amazing, covering well over 60 hectares, and walking around today really feels as if you could be back in Roman times. The site has been under investigation for approx three hundred years, but is continually coming up with amazing finds, such as the pizza painting, and further information can be found here youtube clip.

This summer, has been one of the hottest on record, (and it was 35oC when I visited) and Pompeii is trialing modern technologies to help monitor and guard against possible damage from climate change.

The visit really helped develop thoughts and comparisons with other sites, and I am looking forward to using these images in my teaching sessions, where we explore monitoring techniques at different archaeological sites.

Dr Gillian Taylor

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Promotion – Associate Professor Lisa Baldini

We are excited to announce a recent promotion in our team, Dr Lisa Baldini is now an Associate Professor.  Lisa specialises in palaeoclimate  and environmental geochemistry research.

Lisa has recently led an expedition to Gabon, funded by National Geographic Explorer Level II Grant to explore West Africa for stalagmite-bearing caves and generate the region’s first-ever stalagmite palaeoclimate reconstruction

Congratulations

Promotion – Associate Professor Jamie Bojko

We are excited to announce a recent promotion in our team, Dr Jamie Bojko is now an Associate Professor.  jamie specialises in invertebrate pathology, including histopathology, molecular diagnostics and metagenomics.

Jamie is currently at presenting his research work at the society of invertebrate pathology

Congratulations

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INQUA 2023 – Roma, Italy

INQUA 2023 was held in Rome 13th-20th July, Sapienza University. The congress was opened by the President of Italy, in the most amazing lecture theater. The congress covers quaternary sciences, but includes human evolution, anthropocene, climate records, processes and models. The climate discussions were a very hot topic (!!) with rome reaching a record temperature of 41.8oC. Despite this, conference organizers did a superb job to help attendees, the lunch and coffee break sessions were fantastic.

We had two presentations, firstly by Dr Caroline Orr – Microbial and chemical characterisation from occupation contexts involved in the preservation of Roman writing tablets, and secondly Dr Gillian Taylor –  Monitoring peatlands changes at the Roman site of Magna, Northumberland, UK.

Talks and poster sessions were well attended (higher for those in airconditioned rooms!), the quality, expertise and diversity of the talks makes this the best conference I have been too in a long time.

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New Publication: Assessment of genetic and morphological differentiation among populations of the Diederik Cuckoo Chrysococcyx caprius – Dr Desire Dalton

Migration strategies within the tropics are poorly understood as are the drivers of movement and the degree of connectivity between sites in migrant birds that have their global range and life cycle exclusively on a single continent (intra-continental migrants). Dr Desiré Lee Dalton (Lecturer, Teesside University), Dr Jamie Bojko (Senior Lecturer, Teesside University) and collaborators have conducted a study on Diederik Cuckoo, an African bird species that is widely distributed south of the Sahara which migrates seasonally between breeding and nonbreeding sites. The aim of the study was to determine if the species is a single panmictic population or if it is genetically structured. Assessment of five morphometric measures did not identify differences between locality or sex. We additionally identified a lack of phylogeographic structure between populations from the northern and southern ends of the distribution which may be attributed to high levels of contemporary gene flow. However, we detected two genetic lineages that occurred in sympatry at a single location in South Africa (Limpopo). The sympatric lineages in the Diederik Cuckoo could be linked to maternal divergence in host selection of these brood parasites — a hypothesis requiring additional data to be tested.

Access the publication through the publisher’s website with this link (https://doi.org/10.2989/00306525.2023.2222230)

New Publication in Nature – TU Press Release

Date of historic volcanic eruption wrong by 130 years? 

New research involving Teesside University has found the eruption date of a historic volcano is wrong by 130 years and that this miscalculation could impact our understanding of climate change.

The study, published in leading journal Nature on Thursday, 6 July 2023, argues that the Laacher See volcanic eruption in Germany took place 12,880 years ago – 130 years after the date previously reported.

The eruption of the Laacher See volcano is one of central Europe’s largest eruptions over the past 100,000 years.

The research team believe that having the wrong date impacts the ability to evaluate natural climate change in the past, impacting how scientists predict future, human caused, climate change.

Dr Lisa Baldini, Senior Lecturer in Environmental Science in Teesside University’s School of Health & Life Sciences, who co-authored the study, said: “A correct age for this eruption is critical because the volcanic material that was deposited across Europe during the event is used to date numerous important sedimentary archives of past climates.

“Getting the date wrong will impact on our ability to evaluate the drivers of natural climate change in the past, which is critical for developing models that accurately predict future, human-caused, climate change.”

The research team, led by Durham University and including scientists from Teesside University, University of Oxford, Royal Holloway University of London, and SYSTEMIQ Ltd, suggest that the eruption date may have been compromised by volcanic carbon.

They argue that volcanoes outgas carbon dioxide from the underlying magma chamber, which filters through the soil and is absorbed by any vegetation, including trees. This magmatic carbon dioxide has no radiocarbon in it, because it is ancient carbon that has been in the ground for millions of years. Incorporation of this dead carbon into the tree will produce a date which will be too old.

Professor James Baldini, of Durham University, who led the study, said: “Our new study notes that the recent date for the eruption does not consider dead carbon which is emitted by the volcano and is absorbed by trees. Therefore, the trees used in the Reinig et al. were contaminated by this volcanic carbon, producing an age that was around 130 years too old.”

“This perspective is supported by the presence of a very large sulphur spike found in the Greenland ice sheet with all the characteristics of the Laacher See eruption, dated 130 years after the new Reinig et al. date.

“The eruption, therefore, is still a viable trigger for the Younger Dryas Event.”

The Laacher See volcanic eruption was similar in size to the cataclysmic Mt Pinatubo eruption in 1991 (pictured).

The ash resulting from the eruption is widely used as a time marker in sedimentary sequences across Europe, so the timing of the eruption affects the reported timing of environmental change as reconstructed from these European lake cores.

New Publication: Biological clocks as age estimation markers in animals: a systematic review and meta-analysis – Dr Desire Dalton

How do you determine how old an animal is? One way is to look at the teeth (tooth layer annulation and otolith layering). However, these methods are invasive and can generally only be used post-mortem, especially in wild animals as an age-at-death estimation. Two DNA based methods have been suggested as appropriate to determine age. Telomeres occur at the ends of chromosomal DNA and shorten as an animal ages. Aging is also correlated with changes in DNA methylation where a small molecule called a methyl group are added to the DNA. Louis-Stéphane IV Le Clercq a PhD student of Dr Desiré Lee Dalton (Lecturer in Forensic Science, Teesside University) has conducted a meta-analysis study that included 40 species and 60 age-estimation models. The study indicated that both methods can be used in studying age in animals and do not suffer significantly from variation due to differences in the lifespan of the species, genome size, karyotype, or tissue type but rather that quantitative method, patterns of inheritance, and environmental factors should be the main considerations. However, methylation may be superior to telomere length in terms of accuracy and cross-taxa portability; however, costs may be higher depending on the technique use to study methylation.

An animal cell indicating the mechanisms of cellular ageing at the molecular level that are currently used as molecular biomarkers for age.

Access the publication through the publisher’s website with this link (DOI: http://doi.org/10.1111/brv.12992)