Our mission is to understand the ecological mechanisms that deliver sustainable crop production. We have expertise in movement and spatial ecology of pests and pollinators, above and below-ground functional biodiversity and weed ecology.
The Department specialises in experimental and quantitative ecology and produces high impact research from plot to continental scales. Our science is supported by a unique combination of facilities including the Rothamsted Insect Survey (National Capability), eight 'Classical' experiments as well as a 330 ha research farm, unique Vertical Looking and Harmonic Radars and insect behaviour and field labs.
Over 30 staff and students are clustered into five research groups.
Head of Department: Dr Angela Karp
Departmental Secretary: Karen Wright
Globally, weeds are a major constraint to crop production and food security. Research within the weed ecology and evolution group at Rothamsted is focused on understanding the ecological and evolutionary forces that underpin the establishment, persistence and spread of weedy (and invasive) plant populations in agro-ecosystems.
Our display on using flowers to minimise pesticide use and enhance biodiversity wins RHS award
Rothamsted scientists, Dr Sam Cook and Dr Jason Baverstock, have been awarded a Silver Flora Award by the Royal Horticultural society for their display on using flowers to minimise pesticide use and enhance biodiversity, in the Discovery category at the Chelsea Flower Show.
Peer reviewed publications from the Agroecology Department
The 2013 publication of the State of Britain's Larger Moths, in collaboration with Butterfly Conservation, highlighted the negative trend in moth populations in the UK but painted a mixed picture for individual species.
RIS light-traps don't just catch moths. Julian Small at Wheldrake (Yorkshire) has been identifying as much of the catch as possible and, in two years, has notched up 600 species of insect and a spider.
Carabids are ubiquitous in many landscapes, but can they lend a helping hand in agriculture? Do their eating habits serve a role?
Department Press Releases
In recent years, some beekeepers have suggested that hybrid varieties of OSR may provide inferior nectar for pollinators compared with traditional open-pollinated varieties. Scientists at Rothamsted Research, which receives strategic funding from the BBSRC, the University of Exeter and Newcastle University tested whether the amount and quality of nectar produced by glasshouse-grown oilseed rape plants vary between crop variety, and more fundamentally, between three conventional breeding systems used to create the varieties.
Black-grass requires a three-pronged attack to promote and develop sustainable management solutions, according to the main findings arising from an AHDB-funded workshop.
Organised by the BBSRC/AHDB Black-Grass Resistance Initiative (BGRI), the workshop united farmers, industry and researchers to help concentrate the UK’s black-grass management efforts.
Scientists recorded movement above radar sites in southern England and found large seasonal differences, with mass migrations of insects generally going northwards in spring and southwards in autumn. Until now, radar studies have measured migrations of relatively few nocturnal species of agricultural pests, and no study previously examined the vast numbers of daytime migrants.
The University of Hertfordshire’s Everyday Day Lives in War Centre and Rothamsted Research are holding a free event to celebrate the importance of the humble willow basket during the First World War on Saturday 12th November 2016.
The ‘State of Nature 2016’ report on trends in UK wildlife between 1970 and 2013 concluded that, across all taxa, 56% of species have declined in this period in all major habitats except urban and marine environments.
Despite the fact that a greater proportion of species associated with grassland, heath and coastal habitats declined over this period than farmland species, Mark Eaton (a lead author of the report from the RSPB) chose to focus in media interviews on agricultural intensification as the main driver of these post-war losses of UK biodiversity. This conclusion was based on a review of the literature and expert opinion on the drivers of population change of individual species using data from the previous State of Nature report published in 2013.
Honeybees learn the position of landmarks around their hive as they explore, which helps them find their way to rewarding flower patches and home again. When they first venture outside the hive, or when a beekeeper moves them to a new location, honeybees perform ‘orientation flights’ to explore and to identify landmarks efficiently.
Getting to the roots of black-grass control: Crop-weed allelopathic interactions in Alopecurus myosuroides
Alopecurus myosuroides (black-grass) is a major threat to UK crop production. The evolution of resistance to herbicides in black-grass means there is an urgent need to develop novel control strategies. There is much interest in the potential for allelopathic interactions (the production of biologically active compounds by plants to inhibit growth of their competitors) to provide novel solutions for black-grass control. You will work with an interdisciplinary team to explore plant ecological and evolutionary interactions, chemical ecology and soil ecology. You will develop skills in plant, chemical and soil ecology underpinned by modern approaches in quantitative biology, analytical chemistry and soil metagenomics. You will develop fundamental scientific knowledge about basic ecological interactions, applying this knowledge to one of the most pressing issues in UK crop production. You will have the opportunity to work with one of the UK’s leading farm management consulting companies to realise the potential of your findings in agronomic field trials.
|title||First Name||Last Name||Department||Location|
|View||Dr||Donald||Reynolds||Agroecology, Computational & Systems Biology||Harpenden|
|View||Miss||Madeleine||Berger||Biological Chemistry and Crop Protection, Agroecology||Harpenden|
|View||Mr||Mike||Hall||Agroecology, Plant Biology and Crop Science||Harpenden|
|View||Mr||Alex||Greenslade||Biological Chemistry and Crop Protection, Agroecology||Harpenden|
|View||Mr||David||Steele||Plant Biology and Crop Science, Sustainable Soil and Grassland Systems, Agroecology||Harpenden|
|View||Mr||Steve||Freeman||Agroecology, Sustainable Soil and Grassland Systems||Harpenden|
|View||Mr||Andrew||Moss||Computational & Systems Biology, Plant Biology and Crop Science, Agroecology, Business Information Services, Sustainable Soil and Grassland Systems, Biological Chemistry and Crop Protection||Harpenden|
|View||Mr||Nick||Evens||Plant Biology and Crop Science, Agroecology||Harpenden|
|View||Mr||March||Castle||Agroecology, Plant Biology and Crop Science||Harpenden|
|View||Mrs||Tracey||Kruger||Plant Biology and Crop Science, Agroecology||Harpenden|
|View||Mrs||Imogen||Durenkamp||Plant Biology and Crop Science, Agroecology||Harpenden|
|View||Ms||Vanessa||Nessner Kavamura Noguchi||Agroecology|