User:Eastburyward/RICHMOND WILLIAM HULLETT

'''Richmond William HULLETT. BA, MA, (Cantab) F.L.S.

HEADMASTER, EXPLORER and PLANT COLLECTOR'''

Richmond William Hullett, an English 19th Century gentleman is more often associated with Singapore than Hong Kong. But this shy and modest man left a legacy which stretched far beyond the shores of Singapore. His influence in the fields of language and education, conservation, exploration and botany has had a lasting impact on the lands of Malaysia, Borneo, Sumatra, Indonesia, England and beyond. Through this man’s selfless devotion to his duties both as headmaster, explorer and conservationist, many of the plants we enjoy today in Hong Kong and Asia would not have survived the major human impact. His achievements as an academic and scholar have inspired and influenced many Chinese scholars.

Hullett discovered the plant Bauhinia Hullettii (a synonym for Bauhinia ferruginea var. ferruginea) on Mount Ophir in Malaysia. The Bauhinia, an orchid-like plant with beautiful delicate flowers, became his passion. He was an avid collector and likely spent many hours studying it and propagating it. A variant of the Bauhinia, known as Bauhinia blakeana, has been adopted by Hong Kong for its national flag. Bauhinia blakeana was adopted as the floral emblem of Hong Kong by the Urban Council in 1965. Since 1997 the flower appears on Hong Kong's coat of arm, its flag and its coins. A statue of the flower was presented to the people of Hong Kong by the People’s Republic of China and is today to be found in Golden Bauhinia Square in Hong Kong. Although the flowers are bright pinkish purple in colour, they are depicted in white on the flag of Hong Kong. The origins of the Bauhinia blakeana are shrouded in mystery. The plant itself is a cross of two variants. It is sterile and the trees we see today all over Hong Kong came from one plant discovered in Hong Kong in the 1880’s, possibly the result of one of Hullett’s many experiments in propagation.

Early years

Richmond William Hullett was born on 15th November 1843, in the parish of Allstree in Derbyshire, England. He was the third son of The Reverend John Hullett and his wife Cecilia. Hullett had five brothers and one sister. Richmond William Hullett’s father was a clergyman in the parish of Allstree. His father was ordained Deacon of Gloucester in 1838. The Rev John Hullett Snr was a renowned scholar and theologian. He was an undergraduate at St John's College Cambridge in 1834. The Rev John Hullett authored a number of books throughout his life as a country parson. Richmond and his brothers and sister lived a modestly comfortable and educated life in the country parsonage in Allestree, Derbyshire.

Education

As was often the case for the families of country parsons in England at the time the families of clergymen frequently moved around the country because of the needs of parishioners in different dioceses. Often clergyman's children were sent to boarding schools in order to receive a stable education. Richmond Hullett was sent to Rossall boarding school in Lancashire England. At Rossall he excelled and was an exceptional student particularly in mathematics. He won a scholarship to enter Trinity College Cambridge to study maths. He entered Trinity College Cambridge in 1863 and graduated in 1866 with a first-class honours degree (BA Cantab) in the mathematical Tripos. This achievement meant that Hullett could call himself one of the Cambridge Wranglers (an ancient classification distinction in academic achievement.

Employment

Following his graduation from Cambridge University, Hullett secured a teaching post as assistant master at the prestigious Puritan Felsted Grammar School in Essex, England. Felsted School was an ancient and respected educational establishment founded in 1564 by the First Baron Riche. Four of Oliver Cromwell's grandsons were pupils here between 1621 and 1674. During Hullett's time here as assistant master under the leadership of Jamaican born headmaster William Stanford Grignon (MA Cantab), Hullett began to show interest in his two lifelong diversified passions; language and botany. Hullett left Felsted Grammar School in 1871 in order to take up a new senior post as principal of Raffles Institution in Singapore.

Raffles Institution

Raffles Institution was founded in 1823 by Sir Thomas Stamford Raffles. Hullett became the longest serving (1871-1906) and one of the most respected headmasters; the present library is named in honour of him. During his long and distinguished career at Raffles Institution, Hullett made a mark on the world and his legacy lives today, not only in a number of important flora throughout Singapore, Malaysia, Java, Sumatra, Borneo and China but also by the many words and colloquial expressions that are used in modern day English and Malay language. Straits Philosophical Society Hullett was a member of a number of learned societies. He was a member of the elite Straits Philosophical Society which was founded on 5 March 1893 to engage in critical discussions on philosophy, theology, history, literature, science, and art. The society played a developmental role in the intellectual and cultural life of colonial Singapore. Its founding members were Major-General Sir Charles Warren (president), the Rev. G. M. Reith (secretary and treasurer), John Winfield Bonser, Walter Napier, Henry Nicholas Ridley (fellow plant collector and explorer), J. Bromhead Matthews, J. McKillop, D. J. Galloway (Dr), A. Knight, Tan Teck Soon, T. Shelford, G. D. Haviland (Dr), R. N. Bland, and C. W. Kynnersley. The society largely comprised the intellectual elite of the colonial administration. Active membership, which was capped at 15, was opened to Singapore residents only. Priority for admission was given to university graduates, fellows of European learned societies, and people with distinguished merit.

One of the members Tan Teck Soon was an influential Chinese scholar and past pupil of Hullett who contributed to the reformist impulse within the Chinese community in Singapore around the turn of the 20th century. In 1873, at the age of 14, Tan became the first Straits Chinese to win the Guthrie Scholarship for Chinese boys, which enabled him to go to Amoy to continue his Chinese studies. At the Raffles Institution, Tan was one of the first pupils of Hullett, the influential principal, who made a deep impression on Tan and inspired him to further his education. Tan purchased a newspaper, the Daily Advertiser, as a vehicle for communicating to the public their ideas about the need for reform within the Chinese community. Tan was editor and proprietor of the paper from 1890 to1894. In it he tried to keep the local Chinese community abreast of political and cultural developments in China. Tan was involved in running the Singapore Chinese Educational Institute from 1891, the inaugural lecture for which was given by Tan’s old school master, Hullett. Another of Hullett's pupils was the respected Lim Boon Keng, OBE a Chinese doctor who promoted social and educational reforms in Singapore and China. Lim Boon Keng studied medicine at Edinburgh University in the UK.

The Linnean Society Because of Hullett’s passion for plant collecting, recording and discovery of new plant species, Hullett was made a Fellow of The Linnean Society (FLS). He remained a member until 1909. The Linnean Society of London is among the oldest of London's Learned Societies and is the world's oldest active organisation devoted exclusively to natural history.

The Straits branch of the Royal Asiatic Society

Hullett made many contributions to the Straits branch of the Royal Asiatic Society. The Royal Asiatic Society was founded in 1823 by the eminent Sanskrit scholar Henry Colebrooke and a group of likeminded individuals. It received its Royal Charter from King George IV in the same year 'for the investigation of subjects connected with and for the encouragement of science, literature and the arts in relation to Asia'. The Straits branch of the Royal Asiatic Society was formed by a group of colonial administrators, the Society enjoyed the patronage of top-ranking officials, Governors of the Straits Settlements, Prime Ministers of Malaysia and Singapore and the Sultan of Brunei. Hullett’s good friend and fellow plant collector Henry Nicholas Ridley was also amongst its council members. Apart from enjoying elite patronage, the Society during the colonial period received government grants, donations from the Sultans of the Malay States, franking privileges, government provision of premises and facilities for printing and map-making.

Hullett's Achievements During breaks in the academic calendar for school holidays, whenever Hullett had the opportunity he would embark on a number of exciting and sometimes rather dangerous expeditions to collect and record exotic plants. Throughout the 1880s and 1890s Hullett was a prolific plant collector and intrepid explorer. Many of his significant plant discoveries were found on Mt Ophir (4,186ft/1,276m) in Malaysia, ancient history points to the mountain being the site of rich gold deposits. Although today Mount Ophir is one of the most popular and most climbed mountains, in Hullett's day it was a significant trek and often a dangerous expedition.

Hullett's plants Another important plant brought back to China from Mount Ophir by Hullett was a variant of the Imaptiens (Busy Lizzie). In 1956 in a seeming case of ‘plant envy’ it appears that Hullett was (perhaps erroneously) blamed for the inadvertent release to other areas of Southeast Asia the Linaria Alpina. The following is an extract taken from the original article Diatoms as Tracers to Localize Erroneously Labelled Specimens. C. G. G. J. van Steenis Source: Taxon, Vol. 5, No. 7 (Sep. - Oct., 1956), pp. 157-158 Published by: International Association for Plant Taxonomy (IAPT) Stable URL: http://www.jstor.org/stable/1216648/ref> which apportions blame to Hullett because of the use of ‘old rough drying paper’ to transport the seedlings. "Another singular case of distribution, too strange to be true, is that of Linaria alpina DC. found on Mt Ophir in Malaya, by HULLETT. The sheet contains one miserable 5 cm long flowering branch which can exactly be matched with European specimens. It is glued on the sheet and Mr VAN DER WERFF did not succeed in finding on a tiny fragment, aerial diatoms which might give a clue. Although the locality was very well known in the field, RIDLEY and nobody else has succeeded in recollect Linaria alpina there. The habitat, a wet place would ecologically be abnormal. Personally I am convinced that this specimen has been erroneously localized, the error in all probability having arisen by the use of old, rough drying paper which had been employed formerly in Europe and was brought along to Malaya and to which this tiny specimen adhered and escaped attention until it was loosened with the Mt Ophir collection of HULLETT"

Citrus Halimii One of the most significant and perhaps curious cases of lost plants is that of the wild Malaysian citrus tree believed to be 12 million years old (now endangered). Citrus Halimii (a close relative of the kumquat and pomelo variety of citrus), was collected by William Tatton Egerton on Mount Ophir, December 28th 1902. In a letter to Henry Nicholas Ridley Egerton writes:

Dear Ridley, I send it to you by Hullett some leaves and fruit of a mountain lemon or citron found growing in primaeval jungle at a height of 2200 feet about 2 miles from the Burkit Tangga Pass to Jelebu. It may well be unknown but I expect to hear that you know it well” Yours sincerely, W. Egerton 28/12/02 The Residency, Seremban

Prior to human cultivation the genus citrus originated in South East Asia and consisted of just a few specimens. The leaves and fruit were brought back by Hullett but they seemed to have been ‘lost’ for over 70 years, quite what happened to them nobody knows. , However when the seedling was ‘rediscovered’ in the Herbarium of the Botanic Gardens Singapore, it was documented, and named in 1973 Citrus halimii: A New Species from Malaya and Peninsular Thailand. Benjamin C. Stone, J. Brian Lowry, R. W. Scora, Kwiton Jong Source: Biotropica, Vol. 5, No. 2 (Sep., 1973), p. 102-110 Published by: The Association for Tropical Biology and Conservation Stable URL:http://www.jstor.org/stable/2989659/ref>. Erroneous labelling of some specimens may account for the seeming disappearance of some varieties of plants. Important varieties of Hullett’s collection remain to this day in the Herbarium of the Botanic Gardens Singapore. Citrus Halimii, was named after the King of Malaysia His Majesty Duli Yang Maha Mulia Seri Paduka Baginda Yang DiPertuan Agong of Malaysia.

Hullett and Ridley also collected plants on the granite island of Pulau Uban, Singapore. The original vegetation probably consisted of lowland forest and mangrove swamps. Today much of the original vegetation has been cleared. Nearly 600 out of 2,257 native plants are now extinct; deforestation and disturbance have been the main causes of plant species extinction in Singapore A Study of Plant Species Extinction in Singapore: Lessons for the Conservation of Tropical Biodiversity. I. M. Turner, H. T. W. Tan, Y. C. Wee, Ali Bin Ibrahim, P. T. Chew, R. T. Corlett Source: Conservation Biology, Vol. 8, No. 3 (Sep., 1994), p. 705-712 Published by: Blackwell Publishing for Society for Conservation Biology Stable URL: http://www.jstor.org/stable/2386512/ref>.

During Hullett's collection on the island he discovered the Canavalis bean, seeds of which are in the Hong Kong Botanical Gardens, they were recorded in 1922 in Stanley and Lantao Island A Revision of Canavalia. (1922), C. V. Piper and S. T. Dunn, Bulletin of Miscellaneous Information (Royal Gardens, Kew), No. 4, p. 129-145 Published by: Springer on behalf of Royal Botanic Gardens, Kew Stable URL: http://www.jstor.org/stable/4120203/ref>.

Macaranga Hullettii (The Ant Plant)

Macaranga which occurs predominantly in Malaysia, Borneo, and Sumatra, is the world's largest genus of pioneer trees. It grows in small gaps, along riverbanks, roadsides, and in logged areas. Macaranga hullettii tree species known from the Malay Archipelago are colonized by specific ants The Contribution of Ant-Plant Protection Studies to Our Understanding of Mutualism, (Jun., 1998) Judith L. Bronstein Biotropica, Vol. 30, No. 2, p. 150-161. Published by: The Association for Tropical Biology and Conservation Stable URL: http://www.jstor.org/stable/2389158/ref> which are required for the successful pollination of this specific Macaranga tree, without Hullett's discovery of one of the popular Euphorbia varieties of plants we may not have the distribution in Southeast Asia which we enjoy today, specifically continuation of Macaranga hullettii is most important for the colony of tiny ants which require this to survive.Hullett spent a considerable time plant collecting in Indonesia particularly in Sindang Laya in Java Here Hullett found a species of Valerian,Erechtites Valerianifolia (Valerian), the plant is known for its medicinal properties and its ability to induce sleep.

The later years Hullett was the author of a book entitled ‘English sentences with equivalents in colloquial Malay’ 1887. After Hullett retired in 1906 as principal from Raffles Institution he became inspector of schools in the Straits settlement and director of public instruction in Singapore. Hullett died in Wandsworth, London UK in 1914.

Hullett's legacy To name but a few more popular plants which we enjoy today thanks to Hullett, Ridley and others are Hyacinths, Orchids, Lillies, Ivy, Gum trees and a species of nettle (Urticaceae) named after Hullett the Hoya Caudata Hullettii. Hullett's legacy has stretched beyond Southeast Asia, but his important contribution to Hong Kong, Sumatra, Malaysia, Borneo, Indonesia and Singapore particularly ought not to be forgotten. It is encouraging to note that conservation and plant collecting remain an important issue and only recently in field studies in Hong Kong for ferns which may have been discovered by Hullett were ‘rediscovered’. The earliest reported survey of Hong Kong plants was in 1841 documented by Bentham in 1861.

In 2001 the Hong Kong Herbarium published the Checklist of Hong Kong Plants four times. The most recent checklist (2002) shows that 242 fern species have been recorded in Hong Kong. There have been great changes in the environment, vegetation and species of Hong Kong since the Opium Wars. Although documented extinctions of species are few, it is certain that some species have disappeared from Hong Kong because of the massive human impact, and complete deforestation at low altitudes must have resulted in the loss of a substantial fraction of Hong Kong’s native flora in the past. Nevertheless, on a more positive note in a recent survey on the biodiversity of Hong Kong during 1996 to 2002, four fern species were ‘rediscovered’ 100 years after they were first collected Rediscovered ferns from Hong Kong, China, (2004) Yue-Hong Yan, Fu-Wu Xing, Zhong-Liang Huang, South China Institute of Botany, the Chinese Academy of Sciences, Guangzhou, China. Newsletter of the Department of ecology and biodiversity, The University of Hong Kong, July 2004, No. 31./ref>. Who knows these may have been first discovered by Hullett.

The story of how the Bauhinia arrived in Hong Kong - A short botanical history

The story of how the Bauhinia arrived in Hong Kong takes us back more than 500 years, to a time of plague, pirates and perseverance, for it was a time when early botanists began to make their mark on the world. The earliest printed herbal to include a series of plant illustrations: The Herbarium Apulei, Rome, circa 1481- was one of the most widely used, and most practical, remedy books of the middle ages. It describes 131 plants, giving a multitude of prescriptions for maladies, ranging from madness, paralysis, dysentery, fertility, stomach ache and ulcers, to antidotes for various poisons. Similarly, Macer Floridus's ‘De viribus herbarum carmen’, Milan, is considered the first printed herbal, with poems describing the medicinal and dietary properties of 77 herbs. The Renaissance saw an immense increase in botanic study and publication. Perhaps the most celebrated botanical work ever printed was written by Leonard Fuchs (a physician who gained his initial fame by finding a cure for the English sweating sickness) ‘De historia stirpium’, Basel, 1542 (or, Notable commentaries on the history of plants) was first published in 1542. A massive, folio volume, this landmark work describes in Latin some 497 plants, and is illustrated by over 500 woodcuts based upon first-hand observation, this provided the first comprehensive study of plants. The Historia is undoubtedly Fuchs' greatest work, and is without equal among the herb books of that era. A labour of love some thirty one years in the making.

Within a short period, botanical texts were being published throughout Europe. Notable contributors and contemporaries of Fuchs to the advancement of botany are Hieronymus Bock’s ‘De stirpium commentariorum libri tres’, Strassburg, 1552. Hieronymus Bock (1498-1554), who directed the botanical garden in Zweibrücken, Germany, was a close observer of nature, he was probably the first botanist of the 16th century to feel the necessity of some sort of classification. Bock did not limit his descriptions to the flowering stage of the plants, but described them accurately at various stages in development, providing a concise life-history of each plant. His observations on plant communities foreshadowed the modern science of ecology. In fact, Bock was the first to have recorded the seasons of annual flowering, and he is regarded as the earliest forerunner of Linnaeus, who, as we shall see later was important in naming the Bauhinia.

After Bock came Otto Brunfels’s ‘Herbarum vivae eicones ad naturae imitationem’, Strassburg, 1531-36 and the next generation of scientists, from the great Flemish botanist Rembert Dodoens to Italy's Pietro Andrea Mattioli were born. Johann Bauhin (1541-1630) who was a student of Leonard Fuchs wrote an equally weighty tome the ‘Historia plantarum universalis’, a compilation of all that was then known about botany, this was incomplete at his death, but was published at Yverdon in 1650-1651, thirty-seven years later. Gaspard (or Casper) Bauhin(January 17, 1560 – December 5, 1624), Johanns brother later wrote his magnus opus The ‘Pinax theatri botanici’ (English, Illustrated exposition of plants) which is a landmark of botanical history, describing some 6,000 species and classifying them. Whilst the classification system Gaspard Bauhin used was not particularly innovative, using traditional groups such as "trees", "shrubs", and "herbs", and for instance grouping spices into the Aromata, he did correctly group grasses and legumes. It is most likely that this is the work which led Carl Linneaus (the founder of the Linnean Society) in deference to the Bauhin brothers 200 years earlier to honour Casper and his brother Johann by naming the genus Bauhinia after them in his 1753 Species Plantarum whose prime importance is perhaps that it is the primary starting point of plant nomenclature as it exists today. After the legume was named Bauhinia by Linneaus and documented in his Herbarium in 1755 there is little record of the genus. It is recorded in The Linnean Proceedings of 1858 and 1909. On 7th November 1912, H.N. Ridley addressed the Linnean Society to discuss his discovery of a Bauhinia found in Mount Menuang, Selangor, Malaysia.

A hybrid of Bauhinia the Bauhinia Blakeana was first discovered in Hong Kong by a French missionary in the 1880s, growing in the grounds of an abandoned house close to the shore near Pokfulam, Hong Kong Island. The close proximity of the tree to a former habitation led S. T. Dunn, in 1908 (then superintendent of the Botanical and Forestry Department) to suggest that it was an introduction (but by whom and when?). The missionary collector subsequently propagated it in the grounds of the nearby Pokfulam Sanatorium run by the Missions Étrangères de Paris, and from there it was introduced to the Hong Kong Botanic Gardens and the grounds of the Roman Catholic Cathedral in Canton (now Guangzhou). Dunn (1908) subsequently formally named it Bauhinia blakeana in honor of Sir Henry Blake, Governor of Hong Kong between 1898 and 1903 Hybrid origin of "Bauhinia blakeana" (Leguminosae: Caesalpinioideae), inferred using morphological, reproductive, and molecular data. (2005) American Journal of Botany. Vol. 92, p.525-533.) Carol P. Y. Lau, Lawrence Ramsden and Richard M. K. Saunders. /ref>.

The Hong Kong Orchid Tree, is of great horticultural value. It is completely sterile and is shown to be the result of (probably natural Hybrid origin of "Bauhinia blakeana" (Leguminosae: Caesalpinioideae), inferred using morphological, reproductive, and molecular data. (2005) American Journal of Botany. Vol. 92, p.525-533.) Carol P. Y. Lau, Lawrence Ramsden and Richard M. K. Saunders. /ref>hybridization between Bauhinia purpurea and Bauhinia variegata. Vegetative propagation occurs in Bauhinia blakeana, but only artificially, as a result of active horticultural practices such as grafting and rooting of cuttings: there is no evidence that Bauhinia blakeana is capable of self-propagating. It has only been perpetuated genetically by artificial horticultural practices and therefore it is not capable of reproducing itself independently. Additionally, there is no evidence that Bauhinia blakeana originated more than once, and there is strong circumstantial evidence suggesting that all trees cultivated today originate from a single ancestor, grown in the Hong Kong Botanic Gardens. It is often called the orchid tree in Hong Kong. The flower of Bauhinia blakeana was adopted as the emblem of Hong Kong in 1965 and since 1997 has been part of the flag of the SAR. How the single ancestor tree came to the shores of Hong Kong remains shrouded in mystery. Perhaps we owe it all to Hullett.

References

Journal of the Linnean Society—Botany, Vol. XLI, July, 1913./ref>

Diatoms as Tracers to Localize Erroneously Labelled Specimens. C. G. G. J. van Steenis Source: Taxon, Vol. 5, No. 7 (Sep. - Oct., 1956), pp. 157-158 Published by: International Association for Plant Taxonomy (IAPT) Stable URL: http://www.jstor.org/stable/1216648 Citrus halimii: A New Species from Malaya and Peninsular Thailand. Benjamin C. Stone, J. Brian Lowry, R. W. Scora, Kwiton Jong Source: Biotropica, Vol. 5, No. 2 (Sep., 1973), p. 102-110 Published by: The Association for Tropical Biology and Conservation Stable URL:http://www.jstor.org/stable/2989659

A Study of Plant Species Extinction in Singapore: Lessons for the Conservation of Tropical Biodiversity. I. M. Turner, H. T. W. Tan, Y. C. Wee, Ali Bin Ibrahim, P. T. Chew, R. T. Corlett Source: Conservation Biology, Vol. 8, No. 3 (Sep., 1994), p. 705-712 Published by: Blackwell Publishing for Society for Conservation Biology Stable URL: http://www.jstor.org/stable/2386512

A Revision of Canavalia (1922), C. V. Piper and S. T. Dunn, Bulletin of Miscellaneous Information (Royal Gardens, Kew), No. 4, p. 129-145 Published by: Springer on behalf of Royal Botanic Gardens, Kew Stable URL: http://www.jstor.org/stable/4120203

The Contribution of Ant-Plant Protection Studies to Our Understanding of Mutualism, (Jun., 1998) Judith L. Bronstein Biotropica, Vol. 30, No. 2, p. 150-161. Published by: The Association for Tropical Biology and Conservation Stable URL: http://www.jstor.org/stable/2389158

Thrips pollination of the dioecious ant plant Macaranga Hullettii (Euphorbiaceae) in southeast Asia, (2002). American Journal of Botany, Vol. 89, No. 1, p.50–59. Ute Moog, Brigitta Fiala, Walter Federle, and Ulrich Maschwitz.

Rediscovered ferns from Hong Kong, China, (2004) Yue-Hong Yan, Fu-Wu Xing, Zhong-Liang Huang, South China Institute of Botany, the Chinese Academy of Sciences, Guangzhou, China. Newsletter of the Department of ecology and biodiversity, The University of Hong Kong, July 2004, No. 31.

Hybrid origin of "Bauhinia blakeana" (Leguminosae: Caesalpinioideae), inferred using morphological, reproductive, and molecular data. (2005) American Journal of Botany. Vol. 92, p.525-533.) Carol P. Y. Lau, Lawrence Ramsden and Richard M. K. Saunders.