Long-term experiment
A long-term experiment is an experimental procedure that runs through a long period of time, in order to test a hypothesis or observe a phenomenon that takes place at an extremely slow rate. What duration is considered "long" depends on the academic discipline. For example, several agricultural
In physics
The
The Beverly Clock at the University of Otago has been running since 1864.
The pitch drop experiment has been running at the University of Queensland since 1927.
In botany
The William James Beal Germination Experiment has been running since 1879. It is the oldest on-going experiment in botany. It is scheduled for completion in 2100.
The Godwin Plots experiment at the Wicken Fen reserve in Cambridgeshire, England, has been running since the 1920s and explores the differences between areas of vegetation which are never cut, and respectively all four, three or two years and every year.
In agricultural research
Long-term experiments test the sustainability of different farming practices, as measured by yield trends over decades. Examples include the
Experiments at Rothamsted showed that "grain yields can be sustained (and even increased) for almost 150 years in monocultures of wheat and barley given organic or inorganic fertilizer annually".[2] These results show that practices considered unsustainable by some advocates of sustainable agriculture may preserve "the ability of a farm to produce perpetually", at least under some circumstances. But even if crop diversity in space or time (crop rotation) and organic inputs are not always essential to sustainability, there is abundant evidence from Rothamsted and elsewhere that they are often beneficial.
An experiment in alpine pasture has been ongoing in Switzerland at Schynige Platte from the 1920s looking at the human effect on the alpine environment.[3]
The Haughley Experiment was noteworthy as a rare example of a long-term experiment in organic farming without external inputs of nutrients. After about 30 years, however, it was decided to start importing manure. There is some disagreement whether a "decline in relative yields from the organic section" was due to a depletion of soil nutrients.[4]
Various short-term experiments have used legumes (in symbiosis with nitrogen-fixing rhizobia) as a nitrogen source, but good short-term yields do not prove the system is sustainable. The problem is that release of nitrogen from soil organic matter can make up any shortfall of nitrogen from legumes for a decade or more. The Old Rotation showed that nitrogen from legumes can balance nitrogen removed in a harvested crop over the long term. A key point is that the nitrogen in the legumes was not removed, as it would be with a soybean crop, but was plowed under as a green manure. In the Old Rotation, the green manure was grown during the winter to supply nitrogen to a summer crop (cotton); this would be less practical in colder climates.[citation needed]
Long-term agricultural experiments that have been started more recently include the Long-Term Research on Agricultural Systems experiments at UC Davis, started in 1993.[5]
In microbiology and evolutionary biology
In microbiology
At the UK Centre for Astrobiology within The
The experiment comprises two oak wooden boxes containing duplicate samples, to be kept at the University of Edinburgh and the Natural History Museum. Every two years for the next 24 years, and thereafter every 25 years for the next 475 years, triplicate samples of both organisms contained within glass ampoules will be opened and the number of viable cells enumerated. The first time point was taken in 2014, and the last is intended to be taken on 30 June 2514. Within each box, the experiment is duplicated into a reduced and non-reduced background radiation experiment, with one set of samples being kept in a lead box to cut back background radiation, allowing the impact of radiation in combination with desiccation on viability to be studied over long periods. It was motivated by a desire to understand how microbes survive desiccation in deserts, rocks, permafrost and their potential survival in space. The destruction and pathways of degradation of biomolecules will also be studied. In addition to the core experiment, there are a variety of samples including dried agar plates and endoliths for investigation over long periods.[citation needed]
One of the wooden boxes was delivered to the Natural History Museum on 27 February 2015, and will be curated within the cyanobacterial collection.
In evolutionary biology
The E. coli long-term evolution experiment (LTEE), a study in experimental evolution initiated by Richard Lenski, has been underway since 1988 for more than 70,000 generations.[8][9] Experiments with the evolution of maize under artificial selection for oil and protein content represent more years, but far fewer generations (only 65).[10][11]
The domesticated silver fox, an ongoing breeding program since 1959 with dramatic results.
The "Dark Fly" experiment started by Syuichi Mori (Kyoto University) in 1954 studies evolution of
In ecology
The US National Science Foundation supports a number of long-term ecological experiments, mostly in ecosystems that are less directly affected by humans than most agricultural ecosystems are. See
A number of other areas, sometimes called
In medicine and psychology
The Framingham Heart Study has been running continuously since 1948.
The Grant Study at the Laboratory of Adult Development in the Department of Psychiatry at Brigham and Women's Hospital, a Harvard Medical School affiliate, is conducting a longitudinal study of human adult development, by following two groups of individuals as they age (268 Harvard graduates and 456 males from inner-city Boston). The study has been ongoing since 1937 and is currently the longest running study of adult life ever conducted.
References
- ^ "Exhibit 1 – The Clarendon Dry Pile". Department of Physics. Oxford University. Retrieved 30 January 2021.
- .
- ISBN 9783258077208.
- .
- ^ "Long-Term Research on Agricultural Systems". University of California, Davis.
- ^ Cockell C (May 2014). "The 500-Year Microbiology Experiment". Microbiology Today (World War I): 95–96.
- .
- PMID 18524956.
- ^ Lenski, Richard E. (2020-03-09). "We Interrupt this Nasty Virus with Some Good News about Bacteria". Telliamed Revisited. Retrieved 2021-05-27.
- .
- .
- PMID 22432011.