2 Jul 2015
Last month we joined the Professional Horticulture Group South West for a visit to some Bristol University Gardens followed by a tour of the new Life Sciences building. A report on this appears below.
On 9 July we will be visiting Canterbury to learn about the educational specialisms at Christ Church University and then move to Edward Vinson’s Sandbanks Nursery, Faversham where we will be looking at large scale propagation of soft fruit. Details
On 13 July we will be joining the Professional Horticulture Group South West for a visit to Dicot Gardens near Axminster followed by Frogmary Green Farm where they grow potatoes for supermarkets, maize and grass for fodder (and chickens). Details to follow.
On 14 July the SCI Agriscience Group have organised a visit to Rothamsted Research. Details
On 16 July we have been invited to join the Institute of Food Science and Technology for a visit to the Warwick Crop Centre to see the research being conducted there. Details
On 29 July we are again invited to join the Institute of Food Science and Technology for a visit to Wilkin & Sons Tiptree Farm to see the crops that go into their jams and preserves. Details
Gardens & Life Sciences at Bristol University
Plant of the Month
Medicinal Plant of the Month
News from our Associates
Horticulture Industry News
Horticulture Group contact details
The history of Bristol University can be traced back to 1595 when the Merchant Venturers who had made the town prosperous founded a technical college. In 1905, this 300 year old institution amalgamated with a thirty year old newcomer, University College, to form the University of today. However the link with the Merchant Venturers remained and led to several of the fine residences in the wealthy suburb of Clifton being gifted to the University.
One such was Goldney Hall, where our visit with the Professional Horticulture Group South West began. The original manor house that still forms part of today’s house was purchased by Thomas Goldney II in 1705. He was a true merchant venturer being a major financer of the Woodes Rogers expedition that rescued Alexander Selkirk (Robinson Crusoe). He was also a major shareholder in Abraham Darby’s Coalbrookdale iron works which in 1709 had first used coke to fire the blast furnace, an act that has been credited with starting the industrial revolution.
The gardens of Goldney Hall were the creation of his son Thomas Goldney III. Inheriting the Hall in 1731 he set about modelling the garden. First he built a greenhouse later converted into today’s fine orangery to house a collection of exotic plants being brought to the city on its ships. He then created the Dutch style canal (picture to right) leading to a mount built to enclose the view but also providing a vantage point to view the river far below and, most important, its shipping. He then added a grotto lined with over 200 species of shells as well as a variety of local and imported minerals (picture middle right). Today this is a Grade 1 listed building and can only be viewed by special arrangement and then with a custodian present at all times. Other architectural features were also added along this ridge, all providing further views of the river and its all important shipping.
While the garden has a number of fine specimen trees and is still maintained to a high standard, sadly but perhaps understandably, maintaining the structures and developing the garden does not come high on the university's list of priorities. Our guide, Nick Wray, curator of the University Botanic Garden, explained that, since the limit on student numbers had been removed, numbers had grown dramatically and all available resources are being channelled into upgrading the research facilities to attract high quality researchers and students.
We then moved on to the Royal Fort Gardens at the summit of the University. The sloping lawns and specimen trees of these gardens highlighted a conundrum the university, and particularly the gardens, face. New buildings inevitably result in tree removal and the need for their replacement elsewhere. Now however one tree is no longer enough according to the planners and if this policy is not relaxed the open spaces like those afforded by the Royal Fort Gardens are doomed to gradual afforestation.
At the summit these informal gardens lead on to a more formal piazza and the new life sciences building. The landscaping was originally left to a commercial company but the botanists and horticulturists had to step in to ensure the planting reflected more closely the work they did. As usual the post planting maintenance was part of the contract and has been sadly underestimated leaving the trees on this high exposed site seriously short of water and showing severe signs of distress (picture lower right).
Our tour ended in the modern life sciences building opened only last year. As well as enviable first-rate research facilities it also houses a teaching laboratory designed to accommodate 170 students at a time who watch the lecturer and whatever he is demonstrating on large screens placed along the side of the room. Even this large room is insufficient and they already fill it twice to satisfy the expanding student demand. Indeed so great is the demand that a night shift is being mooted.
Salvia x jamensis, Lamiaceae
At this time of year, the incredible range of Salvias really do begin to come into their own in our gardens. With over 900 species, native to tropical regions as well as temperate areas, especially the Americas, Sino-Himalayas and south west Asia there is a huge range to choose from. In Turkey alone there are 86 species, 50% of which are endemic.
The RHS plant finder lists 1277 different Salvias, 57 of which are listed as cultivars of Salvia x jamensis. This naturally occurring hybrid was first identified by Dr James Compton on a plant collecting trip to Mexico in 1991. Dr Compton had been head gardener of CPG from 1984 to 1990. Also collected on this trip were Salvia gregii and Salvia patens ‘Guanajuato’.
The specialist Salvia nursery Dyson’s had been growing and raising Salvias for over 20 years. William Dyson focuses on the species from Mexico, Central and South America and the southernmost states of the USA and the cultivars derived from these species.
Salvias can be shrubby or herbaceous and vary in their hardiness in the British climate – from very tender to fully hardy. Many could be considered half-hardy and can be overwintered in sheltered, dry areas or with some protection over winter. The flowers are formed of 2 lips and exhibit bilateral symmetry. The leaves are often aromatic. The range of flower colour is phenomenal and they are surely some of the most ornamental plants we can grow.
To get the best out of all Salvias, grow in full sun, in well-drained soil.
Cultivars of this natural hybrid include ‘Hot Lips’ (pictured right by Derek Harper), ‘Raspberry Royale’, and ‘Nachtvlinder’.
Salvia officinalis, common sage; Salvia sclarea, clary sage, Lamiaceae
With a latin name deriving from Salveo – I heal, and Salvus – safe, well, sound, it is not really surprising that there are many salvias used for medicinal and culinary purposes in addition to those grown purely for their ornamental beauty.
The common culinary sage, Salvia officinalis, is a perennial shrub, originally from the Eastern Mediterranean and Southern Europe. In addition to its culinary uses, it has been used as an antiseptic, antispasmodic and carminative. It has popular uses against gingivitis and inflammation of the mouth and throat. It is also used as a digestive medicine to treat stomach upsets and diarrhoea.
Clary sage, or clear eye was particularly valued for affections of the eye but has also been used to treat wounds, dyspeptic, urinary and menstrual disorders. The oil is also popular in aromatherapy. This shrubby species originates from southern Europe to central Asia with commercial cultivation taking place mainly in eastern Europe, Russia and Asia.
The essential oil derived from these plants is rich in flavonoids, terpenes and phenolic acids. The exact composition is particular to each species. Common sage is rich in alpha- and beta-thujone and rosmarinic acid whereas clary sage is rich in linalool and linalyl acetate in addition to rosmarinic acid.
Commercial Horticultural Association
This autumn CHA will be taking groups to three shows; the Naivasha Horticultural Fair in Kenya between 18-19 Sept 2015; The International Horticultural Trade Fair at Vijfhuizen, Holland between 4-6 Nov 2015; Growtech Eurasia in Antalya, Turkey between 2-5 December 2015. Grants will be available for eligible UK companies wishing to participate and anyone interested should contact CHA.
GM wheat field trial
GM wheat did not repel aphid pests in the field as was hypothesised and was initially seen in laboratory experiments conducted by scientists. The wheat had been genetically modified to produce an aphid alarm pheromone and it was hoped that this would repel aphids in the lab and field. This would allow farmers to reduce insecticide spraying, benefiting the environment and making farming more sustainable. Although the GM wheat did not repel aphids in the field, the five-year project did score some notable successes. The use of genetic engineering to provide wheat able to produce the aphid alarm pheromone (E)-ß-farnesene (Eßf) was successful and robust - this is a world first and an important proof of concept in plant science overall. GM wheat plants produced the pheromone in significant quantities without major unexpected changes seen in the appearance or performance of the new wheat plants, which looked and yielded as normal. More
Eden Project launches higher education degrees
The Eden Project is set to open up its doors to prospective students after launching a range of higher education courses. The programmes, awarded by Plymouth University and delivered in partnership with The Cornwall College Group, will see students taking a degree in a range of subject areas including horticulture, garden and landscape design, event management, and performance, storytelling and interpretation. More
Leaf bacteria may fertilize trees
One of the fastest growing trees, poplars, may rely on tiny microbes in their leaves to fuel their growth. For more than a decade, a lone researcher has been building a case for nitrogen fixation by bacteria living in poplar leaves. There have been many claims of nitrogen fixation in plants outside nodules where it was known to occur for more than a century. Newly reported experiments involving rice grown on nitrogen-poor soil and poplar cuttings put in air with heavy nitrogen should help convince the skeptics. In addition, another researcher finds evidence of nitrogen fixation in the needles of limber pine and Englemann spruce. If these bacteria prove to be widespread, they could be used to boost crop production on marginal soils. More
The Horticultural Development Company, better known as HDC is no more. As part of a rebranding policy for all the sections of the Agricultural and Horticultural Development Board HDC will henceforth be known as AHDB Horticulture.
Oh for the smell of broken walnuts
Why do some insects lay their eggs in some walnuts and not in others? The answer seems to be the smell given off by these nuts when they are broken, and that is why it is important to differentiate between the aromas of whole walnuts and damaged ones. Researchers have identified the volatile compounds in damaged walnuts that insects find attractive and which are threatening the harvests of these nuts in California. These are the first studies carried out on walnuts which are designed to specify the components of the aroma and which can be used to control the moth pests in the most sustainable way, besides helping to cut the use of pesticides and control agents. More
Determining the structure of soil microbial communities
Soil ecologists have debated the relative importance of the ecological factors that determine the structure of soil microbial communities. In a new study scientists sampled field soils in a northern California field site to ask whether factors such as plant species, soil chemistry, spatial location, and plant relatedness influence rhizosphere community composition. They found that soil microbial community variation correlates most strongly with plant species identity, followed by soil chemistry, spatial location and plant genus. More
EMR awarded £482K apple replant disease project
Apple Replant Disease (ARD) is a serious threat affecting newly planted apple trees, which fail to thrive in areas where apples have previously grown. EMR is collaborating with industry partners to provide detailed information about the disease, which could be used to develop new management strategies and provide significant input into breeding programmes to benefit one of the UK’s major horticultural industries. ARD is a complex disease syndrome and, until recent advances in DNA sequencing technology, it has been practically impossible to develop effective control measures against it. This new programme hopes to gain a greater understanding of the relationship between the causal agents, the rootstocks and the soil microbial populations and enable the development of effective control strategies for tomorrow’s fruit growers. More
University of Warwick secures over £1.3m to research food security
Researchers from the University of Warwick’s School of Life Sciences (SLS) have been awarded over £1.36m in grants to further their work into food security. The money will be used to support work into how to improve pest and disease control and post-harvest quality. More
Solving the genetic origin of beetroot pigmentation
All land plants are pigmented by flavonoids and their anthocyanin derivatives, with one exception. In the order Caryophyllales, which contains the colourful beetroot, anthocyanins have been replaced with a pigment type called betalains. Collaborative research has revealed the genetic origins of the betalain pathway. The research demonstrates that lineage-specific radiations of cytochrome P450 and 4,5-dioxygenase genes within the Caryophyllales simultaneously gave rise to new enzymatic isoforms associated with betalain synthesis. The novel isoforms likely evolved new substrate specificities that allowed them to synthesise betalains from tyrosine precursors. These discoveries open a range of possibilities with respect to the genetic engineering of betalain pigmentation. More
SCI Horticulture Group events are listed here
Other Events of Interest:
Hydroponics and Aquaponics at the Gold Coast
5 - 8 Jul 2015, International Society for Horticultural Science
Jupiter's Gold Coast, Australia
5 - 8 Jul, European Federation for the Science and Technology of Lipids
5 - 9 Jul 2015, Le Public Système
Living Walls and Ecosystem Services
6 - 8 Jul 2015, University of Greenwich
Food labelling policy and the European Food Information to Consumers regulation
9 Jul 2015, Westminster Food & Nutrition Forum
Ecology and Evolution of Emerging Plant Pests and Pathogens
13 - 14 Jul 2015, British Ecological Society
High Value Chemicals from Plants
13 - 14 Jul 2015, BBSRC & University of York
The Ecology and Evolution of Emerging Plant Pests and Pathogens
13 Jul 2105, British Ecological Society
Meeting the challenges of food security
14 Jul 2015, Westminster Forum Projects
Soil Biodiversity: How to Explore and Utilise Life in Soils?
16 Jul 2015, Rothamsted Research
Fruit for the Future 2015
16 Jul 2015, James Hutton Institute
New Technologies and Management for Greenhouses
19 - 23 Jul 2015, International Society for Horticultural Science
22 Jul 2015, Haymarket Media
East Malling, UK
Science and plants for people
25 - 29 Jul 2015, Botanical Society of America
26 - 30 Jul 2015, American Society of Plant Biologists
Vineyard Mechanization and Grape and Wine Quality
26 - 29 Jul 2015, International Society for Horticultural Science
Underutilized Plant Species
5 - 8 Aug 2015, International Society for Horticultural Science
6 - 8 Aug 2015, International Society for Horticultural Science
6 - 9 Aug 2015, International Society for Horticultural Science
Food Processing & Technology
10 - 12 Aug 2015, OMICS International
Quality Management in Postharvest Systems
13 - 15 Aug 2015, International Society for Horticultural Science
Siem Reap, Cambodia
Potatoes in Practice
13 Aug 2015, James Hutton Institute
Sustainable Uses of Soil in Harmony with Food Security
17 - 20 Aug 2015, Thailand Land Development Department
Protea and New Ornamental Crops
20 - 24 Aug, International Society for Horticultural Science
Present Constraints of Plum Growing in Europe
20 - 21 Aug 2015, International Society for Horticultural Science
23 - 27 Aug 2015, Society for Ecological Restoration & Manchster University
Machine Harvesting of Tea: curse or cure
27 Aug 2015, Tropical Agriculture Association
31 Aug 2015 - 4 Sep 2015, International Society for Horticultural Science
Biopesticides - innovative technologies & strategies for pest control
7 - 9 Sep 2015, Swansea University
World Sustainability Forum
7 - 9 Sep 2015, SCI Forum
Growing Media, Composting and Substrate Analysis
7 - 11 Sep 2015, International Society for Horticultural Science
Four Oaks Trade Show
6 - 9 Sep 2015, Four Oaks Nursery
Lower Withington, UK
Mycotoxins in Nuts and Dried Fruits
8 - 12 Sep 2015, International Society for Horticultural Science
Next steps for UK food waste policy
10 Sep 2015, Westminster Food & Nutrition Forum
Fresh-Cut Produce: Maintaining Quality and Safety
13 - 18 Sep 2015, International Society for Horticultural Science
16 - 18 Sep 2015, International Society for Horticultural Science
28 Sep 2015 - 2 Oct 2015, International Society for Horticultural Science
Artichoke, Cardoon and their Wild Relatives
29 Sep 2015 - 2 Oct 2015, International Society for Horticultural Science
La Plata, Argentina
People and Nature
30 Sep, Cambridge Conservation Forum
If you would like to advertise a forthcoming event please contact email@example.com
For submitting ideas or to volunteer to be part of a committee or a group, please contact:
Chairman - Peter Grimbly
Meetings Secretary - Alison Foster
Minutes Secretary - Margaret Waddy
Newsletter co-ordinator - Sue Grimbly firstname.lastname@example.org
Group Contact - Ester Monfort, E: email@example.com T: +44(0)20 7598 1584