[ { "id": 204309, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-1961", "page_number": 77, "title": "RAS-1961", "content_text": "Journal of the Royal Asiatic Society Hong Kong Branch\n\nORASHKB and author\n\nVol. 1 (1961)\n\nISSN 1991-7295\n\n73\n\ncalled \"Umbrella of Noumenon and Unity\" (hun-yüan san A) which is decorated with emeralds and precious pearls of divine power which are threaded together to form the words: \"to pack up the universe.\" When this umbrella is opened, heaven and earth, the sun and the moon, will be covered up by darkness, and when it is rolled the world will be shaken. Mo Li-hai carries a spear and on his back there is a four-stringed guitar (p'i-p'a) which will produce the same effect as the \"Blue Cloud Sword\" when played on and the four strings correspond to earth, water, fire and wind. Mo Li-shou carries two whips and a bag in which is concealed a peculiar creature resembling a rat, hua hu-tiao (the striped marten). When hurled into the air this creature will assume the shape of an elephant with wings from its ribs and will devour every one.\n\nThe combat between these four brothers and the heroes from the camp of King Wu can be found in Chs.39-41 of the novel. They are engaged in mortal combat with the Li brothers, Chin-cha, Mu-cha and No-cha in Ch.40. If the reader knows that Li Ching, the fabulous father of these three Li brothers is in fact derived from one of these four heavenly kings, Vaisravana, the ingenuity of the author of this novel can be appreciated, because before the publication of this novel, in many other works Vaisravana and the Chinese god Li Ching, based on the historical hero so named of the Tang dynasty, had long been amalgamated and formed a single name, P'i-sha-mên t'ien-wang Li Ching (Vaisravana or Li Ching, the Heavenly King of Vaisravana). The Chinese transliteration from the Sanskrit \"Vaisravana\" since the T'ang dynasty has been Pi-sha-mên (R), the last character of which, mên, though senseless in this connection, normally means \"gate\". Thus, in popular literature, the term P'i-sha-mên lost its original meaning and became the name of the P'i-sha Gate, and it was therefore natural enough to have a heavenly general, like Li Ching, to take charge of it, though in English this may appear peculiar.\n\n* In Yang Ching-hsien's (MRK) play T'ang San-tsang Hsi-t'ien Ch’ü-ching (EXRE), Scene 9, we read \"P'i-sha-mên hsia Li Tien-wang\" (TX) which means the Heavenly King Li under the P'i-sha Gate. In the prompt-book Ch'i-kuo Ch'un-ch'iu P'ing-hua ta (TH), chüan 3, we have \"P'i-sha-mên To-t'a Li T'ien-wang\" (*XE) or P'i-sha-mên, the Heavenly King Li who holds in his hand a pagoda. Sometimes the story-tellers thought since there was a P'i-sha mên (gate), it was wise to create a palace, called P'i-sha Kung (CE W D). In the Nan-yüeh-chi, Ch. 11, we have \"P'i-sha Kung Li Ching Tien-wang\" (K*XE). In a long eulogistic poem in Ch. 12 of the Feng-shen, there is a palace in heaven called K'un-sha Kung (R V E) which is obviously an erratum.", "txt_file_path": "txt/dfo323lmgvd/RAS-1961.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/vd6724704", "rank": 0 }, { "id": 206046, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-1970", "page_number": 126, "title": "RAS-1970", "content_text": "A NEW LOOK AT CANTONESE EXPLETIVES\n\nM-W (OM) Character\n\nBasic Meaning\n\n121\n\nSOAS\n\n準備 ZEORNBREI CHUN-PEI\n\nimmediate intention\n\n將近 ZHEONQGRAN TSEUNG-KÂN\n\nnear future\n\n將來 ZHEONQLROY TSEUNG-LOI\n\nremoter future\n\n再 ZOI TSOI\n\n就 ZOR CHOH \"FA ZRAU TSAO\n\n就嚟 ZRAULRAY TSAO-LAI\n\n住 ZRY CHUÊ\n\nLÀ\n\nrepetition or continuation\n\ncompletion\n\nsubjunctive\n\nimmediate future\n\ncontinuation\n\nPARADIGMS\n\nSerial Analysis\n\nSOAS\n\n1 AEIOU ZROU\n\n2 AEJO U XOOCRIR-ZROU\n\n3 AEJO U XOOCRIR-MRHZROU\n\n4 AEJO U XOOCRIR-MREIZROU\n\n5 AEJO X (WRUU) SHEONQ-ZROU\n\n6 AEJO X (WRUU) SHEONQ-MRHZROU\n\n7 AEKO U WRAAK (ZEAR)-ZROU\n\n8 AEKO U WRAAK (ZEAR)-MRHZROU\n\n9 AEKO U WRAAK (ZEAR)-MREIZROU\n\n10 AEK SU (CREOY) FHEY-ZOO (ZRAU)\n\nApproximate English equivalent\n\nInf: to do. Indic: intends to do, tries to do, do, does, did, will do, be done.\n\nImper: do! let's do! Subj: if one does, etc. apparently do or have done to.\n\napparently are not doing (being done) or about to (be) done.\n\napparently will shortly do (be done) or have not done (had done to), do to each other. refrain from doing to each other.\n\nmay have (been) done, may be doing (having done to), may be about to do (be done).\n\nmay not be doing (being done to) or about to do (be done).\n\nmay be about to do (be done) or may not have (been) done.\n\nunless I do it, unless it be done.\n\n11 AEK SU (CREOY) FHEY-MRHZROU (ZRAU)\n\n12 AEM RV ZROU-LHA\n\n13 AEM S V CEARNG-ZROU\n\nunless I do not do it, unless it be left undone. (N.B. There is an idiomatic elliptical use here: \"It might be best not to do it.\")\n\ndo!\n\nplease do.", "txt_file_path": "txt/dfo323lmgvd/RAS-1970.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/ww72j0241", "rank": 0 }, { "id": 209288, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-1981", "page_number": 191, "title": "RAS-1981", "content_text": "THE HONG KONG ORIGINS OF DR. SUN YAT-SEN'S ADDRESS TO LI HUNG-CHANG 177\n\nTranslation from op. cit., vol. 3, p. 1.\n\n# The school was set up in 1870 and was originally named the Diocesan School and Orphanage for Boys and known in its short form as the Diocesan Home. The orphanage was closed in 1896, but the school has continued as the Diocesan Boys' School. Its early history is given in W.T. Featherstone, The Diocesan Boys' School and Orphanage, Hong Kong, 1869 to 1919 (Hong Kong, 1930).* The Central School was set up by the Hong Kong Government in 1862 as a result of a proposal from the famous sinologue James Legge. It was the first government school put directly under the supervision of a government officer recruited from Britain. The school was meant to be a model school for the promotion of teaching of English and Western learning. For its history, see Gevenneth Stokes, Queen's College, 1862–1962 (Hong Kong, 1962).\n\n7\n\nThe article was written in 1937, when the early school register was still in the possession of Queen's College. The Yellow Dragon, vol. 37, p. 94.\n\nIt is still not clear when Sun entered the college. It is generally known that Sun was transferred to Hong Kong in early 1887, but the college was not opened until October of the same year. It is possible that Sun had been transferred to work at the Alice Memorial Hospital as a student before the college was officially opened. For Sun's student life in the college, see Lo Hsiang-lin, Kuo-fu chih ta-hsüeh shih-tai (Chungking, 1945).\n\n10 A brief survey of the significant role of the Central School in this respect is given in Ng Lun Ngai-ha, “Role of Hong Kong Educated Chinese in the Shaping of Modern China”, paper presented to the 8th IAHA Conference, 1980.\n\n11\n\n“For more information on these and other early Hong Kong newspapers, see Ng Lun Ngai-ha, “A Survey of Source Materials in Hong Kong Related to Late Ch'ing China”, Ch'ing-shih wen-t'i, 4, (December 1979), 145–146, appendix A.\n\n12 The China coast newspapers are valuable sources for the study of modern Chinese history. For a brief survey of these materials, see Frank H. H. King and P. Clarke (eds.), A Research Guide to China Coast Newspapers, 1822-1911 (Camb. Mass., 1965).\n\n13 It was said that Sun might have contributed articles to the local newspapers and also to the Wan-kuo kung-pao, of which Cheng Kuan-ying was a patron. See Sun Chung-shan nien-p'u (Peking, 1980), p. 24 and Lo Hsiang-lin, \"Kuo-fu yü Ho Chi chüeh-shih ti kuan-hsi\", Kuo-fu ti kao-ming kuang-ta (Taipei, 1965), p. 129.\n\n14 The Hao T'ou yueh-k'an 14 and 15 (1947), a magazine published by a secondary school in Chung-shan county, noted that it was first published in the Macao Daily in 1892. Its full text can now be found in Sun Chung-shan Shih Jiao chuan chi (Kuang tung wen shih tzu-liao, Canton, 1891), pp. 271–273.\n\n16 For a brief comparative study of the two letters, see Huang-yen, “Chi-shao Sun Chung-shan 'chih Cheng Tsao-ju shu'”, Li-shih yen-chiu (1980:6), pp. 184–189.\n\n10 For a short description of Ho's life and career in Hong Kong, see Wu Hsing-lin, The Prominent Chinese in Hong Kong (Hong Kong, 1936), II, pp. 1–2. Ho's contributions to the reform movements in China have been studied in a number of works. The more recent ones are Chiu Ling-yeong, The Life and Thought of Sir Kai Ho Kai (unpublished Ph.D. dissertation, University of Sydney, 1968) and Tsai Jung-fang, “Comprador Ideologists in Modern China: Ho Kai and Hu", "txt_file_path": "txt/dfo323lmgvd/RAS-1981.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/ff36bt18m", "rank": 0 }, { "id": 209747, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-1983", "page_number": 6, "title": "RAS-1983", "content_text": "CONTENTS\n\nPage\n\nPRESIDENT'S REPORT viii\n\nTREASURER'S REPORT xv\n\nLIBRARIAN'S REPORT xvii\n\nOBITUARY xviii\n\nARTICLES:\n\nField Trip to Maryknoll House, Stanley by the Hong Kong Royal Asiatic Society Dec. 8, 1984 - M. MCKIERNAN 1\n\nSo Kon Po: Notes for the Visit Made by Member of the Society, 26th November 1983 — J. W. HAYES 7\n\nNotes on the So Kon Po Valley and Village - REVD. CARL T. SMITH 12\n\nDisfunction of Chinese Rural Society - RAMON H. MYERS 18\n\nThe Self-Perception of Buddhist Monks in Hong Kong Today - BARTHOLOMEW P. M. TSUI 23\n\nNotes on Some Chinese Customs in the New Territories - B. D. WILSON 41\n\nOf Hongs and Tongs and All That Jazz: A Note on Lexical Borrowing from Chinese in English with Special Reference to H.K. - MIMI CHAN 62\n\nThe Islands Around Hong Kong — W. SCHOFIELD 91\n\nSecular Non-Gentry Leadership of Temple and Shrine Organisations in Urban British H. K. - J. W. HAYES 113\n\nBusiness Ideology of Chinese Industrialists in Hong Kong - WONG SIU-LUN 137\n\nVariation Technique in the Formal Structure of the Music of Taoist Jiao-Shi in Hong Kong - PEN-YEH TSAO 172\n\nV", "txt_file_path": "txt/dfo323lmgvd/RAS-1983.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/j9607p61v", "rank": 0 }, { "id": 210035, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-1984", "page_number": 6, "title": "RAS-1984", "content_text": "CONTENTS\n\nPRESIDENT'S REPORT\n\nviii\n\nHON. TREASURER'S REPORT\n\nxvi\n\nHON. LIBRARIAN'S REPORT\n\nARTICLES:\n\nTemple Oracles in a Chinese City - Julian Pas\n\n1\n\nNotes on the History of Tsuen Wan - David Faure\n\n46\n\nHong Kong Island Before 1841 - James Hayes\n\n105\n\nState Regulation of Prostitution in Hong Kong, 1857 to 1941 - R.J. Miners\n\n143\n\nThe Pearl River Estuary Oyster Industry in and around Deep Bay - R.A. Bowler, D.S.C. Yang and A.J.E. Smith\n\n162\n\nThe Structure and Operation of Kei Wais (鄉 僻 ) — Y.H. Cheung, K.Y. Tai, S.W. Tsao and L.B. Thrower\n\n182\n\nThe Shanghai Municipal Council, 1850-1865 - J.H. Haan\n\n207\n\nThe Chinese \"Yue Lan” Ghost Festival in Japan: A Kobe Case Study, Aug. 31 - Sept. 4, 1982 — Choi Chi-cheung\n\n230\n\nNOTES AND QUERIES:\n\nTraditional Tea Growing in the New Territories - P.H. Hase, J.W. Hayes and K.C. Iu\n\n264\n\nCheung Ah-lum, a Biographical Note - Choi Chi-cheung\n\n282\n\nJulian Tenison Woods in Hong Kong - Roderick O'Brien S.J.\n\n288\n\nLime-making on Tsing Yi - Wong Tak-yan\n\n295\n\nWai Cheung (k), a Kind of Rural Leader in the 19th Century Hong Kong Region - James Hayes\n\n307", "txt_file_path": "txt/dfo323lmgvd/RAS-1984.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/5h73wh572", "rank": 0 }, { "id": 210234, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-1984", "page_number": 205, "title": "RAS-1984", "content_text": "184 Y.H. CHEUNG, K.Y. TAI, S.W. TSAO AND L.B. THROWER\n\nchains. The grazing food chain begins with microscopic floating algae (phytoplankton) and algae which are attached to surfaces. These plants are eaten by various animals which exploit part of the energy and nutrients they contain. By a sequence of “eating and being eaten” the energy and nutrients pass eventually to the animals that constitute the produce of the kei wai and support their growth and reproduction. Thus the grazing food chain exploits solar energy and the nutrients present in the water. It should be remembered that the waters of the estuary are comparatively rich in nutrients.\n\nA second basis for production is the detritus food chain. In this context, \"detritus\" is the dead material in the kei wai: the remains of plants and animals that lived there, and any organic materials that may enter the water. The origin and fate of these materials are described in Part II. Broadly, however, they are colonized by bacteria and fungi which decompose and change them. Fragments of detritus, including the bacteria and fungi, are eaten by small animals and the energy they contain eventually passes to the larger animals that are the produce of the kei wai. Thus, any organic material added to the kei wai is a \"supplement\" of energy and nutrients that is exploited via the detritus food chain. One such supplement is the leaves of mangroves and associated plants that fall into the water. Moreover, the importance of such materials was recognised in the traditional practice (described to us by an elderly kei wai operator from China) of depositing soft, easily decomposed leaves (eg. Solanum nigrum) into the kei wai.\n\nHarvesting\n\nThere are essentially two kinds of harvesting procedure, which may be called the \"shrimp harvest” and the \"fish harvest”; both depend on tidal movement. Shrimp harvests are carried out ten times per lunar month on days 1-5 and 16-20 (the days of the highest tides) from the third to eleventh month inclusive, so that there are 90 such harvests per year. Fish harvests are carried out once in each of the ninth and tenth lunar months.\n\nIf possible, the shrimp harvest is begun in the evening. In the following description, the times are by way of example. At about", "txt_file_path": "txt/dfo323lmgvd/RAS-1984.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/5h73wh572", "rank": 0 }, { "id": 210236, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-1984", "page_number": 207, "title": "RAS-1984", "content_text": "186\n\nY.H. CHEUNG, K.Y. TAI, S.W. TSAO AND L.B. THROWER\n\nthe kei wais during the first to fifth lunar months. This was harvested by people from China and used for feeding pigs: an average of 15,750 kg. is harvested per year.\n\nYield from a shrimp harvest carried out on 3 October 1978 was as follows:\n\nShrimps 9 kg Crabs 3 kg Freshwater fish 9 kg (striped mullet — 3 kg, tilapia 6 kg) Marine fish 3 kg\n\nSimilarly, yield from a fish harvest carried out on 6 October 1978 was:\n\nShrimps 12 kg Marine fish 225 kg Freshwater fish 498 kg (Japanese sea perch: 24 kg., striped mullet: 360 kg., blind sea bass: 18 kg., tilapia: 120 kg., eels: 18 kg.) Miscellaneous fish 90 kg (sea bream: 150 kg., tiger fish: 15 kg.) Crabs: 135 kg\n\nIf these figures are used to calculate the total annual yield, the result for 90 shrimp harvests and 2 fish harvests would be:\n\nShrimps 834 kg Crabs 540 kg Marine fish 720 kg Freshwater fish 1,806 kg Miscellaneous fish 180 kg or a total of 4,080 kg. usable produce, not including the harvested seaweed.\n\nUnfortunately, the year of our study was the last of the current lease on kei wai No. 7 and another tenant was to take over. Consequently, the operator probably tried to extract the maximum yield during his last year of tenure. Our calculations may therefore have given an over-estimate of total yield. Indeed, the operator's own estimate of mean annual yield was just one-third of our own. However, careful comparison of every category of produce suggested very strongly that he had under-estimated. Consequently, our own estimate for annual yield has been used to calculate the", "txt_file_path": "txt/dfo323lmgvd/RAS-1984.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/5h73wh572", "rank": 0 }, { "id": 210238, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-1984", "page_number": 209, "title": "RAS-1984", "content_text": "188\n\nY.H. CHEUNG, K.Y. TAI, S.W. TSAO AND L.B. THROWER\n\nPART II: PRODUCTIVITY OF THE KEI WAI\n\nThis part is concerned with the sources of food for the economic produce of the kei wai and especially the importance of detritus to productivity.\n\nMaterials and Methods\n\nAlmost all of the work was done on kei wai No. 7, but a few measurements were made also in kei wai No. 8 (total area ca 20 ha.) and fresh-water fish pond No. 9 (ca 0.2 ha.)\n\na) Conditions in the kei wai\n\nThe following were measured at intervals of 4 weeks from 27 March 1978 to 17 February 1979:\n\n(i) maximum and minimum air temperatures under the mangrove canopy beside kei wai No. 7 Zeal maximum/minimum thermometer left in place throughout.\n\n(ii) air temperature at the time of each visit (“spot temperature”) as (i).\n\n(iii) water temperature — Yellow Springs Instrument Co.\n\n(iv) dissolved oxygen — Model 57 dissolved oxygen meter.\n\n(v) pH of water — Corning Model 10 pH meter.\n\n(vi) salinity of water — Mohr-Knudsen method.\n\n(vii) phosphate content of water — molybdate-antimony reagent and ascorbic acid followed by spectrophotometry.\n\nb) Primary productivity\n\n(i) Phytoplankton was estimated by filtering 2-3 litres of freshly collected water through a layer of MgCO3 by suction.", "txt_file_path": "txt/dfo323lmgvd/RAS-1984.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/5h73wh572", "rank": 0 }, { "id": 210240, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-1984", "page_number": 211, "title": "RAS-1984", "content_text": "190\n\nY.H. CHEUNG, K.Y. TAI, S.W. TSAO AND L.B. THROWER\n\nsoluble carbohydrates by the anthrone method.\n\ne) Colonization of submerged Kandelia leaves\n\nColonization by fungi and bacteria was investigated. Matched sets of senescent leaves were immersed in plastic mesh bags (1 × 1 mm, mesh). Individual bags were collected at intervals and processed in the laboratory. For isolation of fungi the leaves were washed thoroughly with 7 changes of 1% detergent solution and 8 changes of sterile water. Each leaf was cut in half longitudinally: one half was plated on to Czapek-Dox agar for surface fungi, while the other half was surface-sterilized with 0.1 M mercuric chloride solution, washed in sterile water and plated on to Czapek-Dox agar for isolation of fungi present within the tissue. The plates were incubated at 25-27°C, and representative colonies were isolated and counted.\n\nA sterile swab was used to remove the surface film of bacteria from the leaves, and this was streaked on to plates of nutrient agar or marine agar 2216. After incubation at 25-27°C, representative colonies were isolated and characterized by their Gram staining and various physiological properties.\n\nf) Diet of Higher Trophic Levels\n\nThis was determined by digestive tract analysis on a range of animals. Contents of the stomach (fish), buccal cavity (shrimps) or gut (amphipods, insect larvae, worms) were removed and examined with the microscope to estimate the fractions of various materials.\n\ng) Effect of Birds on Productivity\n\nBirds are the only carnivorous animals that may compete with man for the economic produce of the kei wais. Consequently, an estimate was made of the amount of produce removed by them. Information on the diet of birds at Mai Po was obtained from Melville (1978). Hulscher (1975) has suggested that the energy intake of birds is about five times the basal metabolic rate, while King and Farmer (1961) have proposed the following formula for", "txt_file_path": "txt/dfo323lmgvd/RAS-1984.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/5h73wh572", "rank": 0 }, { "id": 210242, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-1984", "page_number": 213, "title": "RAS-1984", "content_text": "192\n\nY.H. CHEUNG, K.Y. TAI, S.W. TSAO AND L.B. THROWER\n\nAs measured by chlorophyll content of the water, the population of phytoplankton was highest between early July and September, and representatives of 12 genera of diatoms were recorded, namely Achnanthes sp., Amphora sp., Biddulphia pulchella, Cocconeis sp., Diploneis fusca, Eucampia sp., Grammatiphora sp., Melosira sp., Navicula sp., Nitzschia sp., Pleurosigma sp., Thalassionema sp. The population of periphyton was also high between July and September; the rapid growth of periphyton in mid-summer emphasized the importance of fringing vegetation (mangrove roots and stems, Phragmites and grasses growing out into the water) as a substrate for periphyton and thus as a contributor to primary production.\n\n \n Date\n Air temperature °C\n Water temp. °C\n pH\n Diss. oxygen p.p.m.\n Salinity p.p.L.\n Chlorophyll ug/l\n Periphyton chlorophyll ug/slide\n \n \n 27/03/78\n \n \n 8.6\n 9.0\n 5.6\n 15.5\n \n \n \n 21/04\n 38\n \n \n \n \n \n \n \n \n 06/05\n 34.0 20.0\n \n \n \n \n \n \n \n \n 03/06\n 36.0 20.0\n 30.0\n 31.4\n 8.8\n 13.7\n 7.9\n \n \n \n 01/07\n 35.5 23.0\n 31.5\n 31.8\n 8.8\n 8.9\n 5.5\n \n \n \n 31/07\n 36.0 23.0\n 28.0\n 25.6\n 6.4\n 5.9\n 2.5\n \n \n \n 26/08\n 33.5 24.0\n 29.0\n 30.5\n 6.2\n 6.0\n 7.3\n \n \n \n 30/09\n 28.5 23.5\n 24.0\n 26.0\n 6.4\n 9.7\n 8.3\n \n \n \n 21/10\n 39.5 18.0\n 25.5\n 26.5\n 8.4\n 8.2\n 8.5\n \n \n \n 24/11\n 36.0\n 9.0\n 23.5\n 22.5\n 6.8\n 10.0\n 16.5\n \n \n 23/12\n \n \n \n \n \n \n \n \n \n 20/01/79\n 29.6\n \n \n \n \n \n \n \n \n 17/02\n 22.0\n 7.0\n 20.0\n 5.5\n 28.0\n 7.0\n \n \n \n \n 18.5\n \n \n 8.4\n 7.0\n 28.1\n \n \n \n \n 17.0\n \n \n \n 14.6\n 8.2\n \n \n \n \n \n \n \n 8.4\n \n \n 15.3\n \n \n \n \n \n \n \n 2188\n 8588\n 178\n \n \n \n \n \n \n 1.4\n 30.8\n 0.5\n \n \n \n \n \n \n \n 14.2\n \n 3.4\n \n \n \n \n \n \n \n 4.3\n \n 2.2\n \n \n \n \n \n \n \n 38.3\n \n 5.7\n \n \n \n \n \n \n \n 16.9\n \n 7.9\n \n \n \n \n \n \n \n 32.1\n \n 0.4\n \n \n \n \n \n \n \n 0.6\n \n 2.1\n \n \n \n \n \n \n \n 2.3\n \n 1.4\n \n \n \n \n \n \n \n 25.5\n \n 17.2\n 7.2\n \n \n \n \n \n \n 8.2\n \n \n 21.2\n \n\nb) Production and Decomposition of Plant Litter\n\nA cross-section of a bund to show the distribution of higher plants is given as Fig. 1. The annual growth phases of Kandelia are shown in Fig. 2 and the estimated litter-fall in Table 2.\n\n \n \n 1978\n 1979\n \n \n \n A\n M\n J\n J\n A\n S\n O\n N\n D\n F\n M\n \n \n Leaves\n \n 45.1\n 49.2\n 66.7\n 152.0\n 182.6\n 129.5\n 113.8\n 76.4\n 49.6\n \n \n \n Droppers\n 151.3\n 133.9\n 12.9\n \n \n \n \n \n \n \n \n \n \n Total\n \n 71.0\n 440\n 60.7\n 31.3\n \n \n \n \n \n \n \n \n \n 1040.6\n \n 24.0\n 166.7\n \n \n 520.1", "txt_file_path": "txt/dfo323lmgvd/RAS-1984.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/5h73wh572", "rank": 0 }, { "id": 210244, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-1984", "page_number": 215, "title": "RAS-1984", "content_text": "194 Y.H. CHEUNG, K.Y. TAI, S.W. TSAO AND L.B. THROWER\n\nkei wai, there would be an input of 146.5 kg. per year or 39.6 kg. per hectare of open water.\n\nThus, the total annual input of organic litter from these two species alone can be estimated as about 3,100 kg. dry weight per hectare or 850 per hectare of open water.\n\nc) Colonization of Litter by Microorganisms\n\nThe occurrence of fungi in leaf litter after various periods of immersion is shown in Table 3; these fungi had been isolated from surface-sterilized tissue and therefore were present within the leaf itself. They may have infected the leaves while still on the parent bush or invaded them during immersion. Venturia sp. and Phyllosticta sp. probably represented the former group. Pythium spp. became an important component of the mycoflora after 3 days immersion and remained so until day 64. Chaetomium sp. and Trichoderma viride were also important by day 64. Representatives of an additional 9 genera of fungi were isolated from leaves after immersion but before surface sterilization, but these were considered as contaminants.\n\nTable 3. Frequency (%) of fungal species isolated from leaves of Kandelia candel after various periods of immersion in kei wei\n\n \n Period of immersion (days)\n \n 0\n 3-8\n 21-32\n 64\n \n \n Isolates*\n \n \n \n \n \n \n \n Venturia sp. (conidial form)\n \n 31\n \n \n \n \n \n Colletotrichum sp.\n \n 8\n \n \n \n \n \n Phyllosticta sp.\n \n 11\n \n \n \n \n \n Nigrospora sp.\n \n 4\n \n \n \n \n \n Pythium spp.\n \n \n 90\n 33\n 33\n \n \n Fusarium spp.\n \n \n \n 2\n \n \n \n Chaetomium globosum\n \n \n \n \n 33\n \n \n Trichoderma viride\n \n \n \n \n 44\n \n \n Hormiscium sp.\n \n \n \n 11\n \n \n \n O. Melanconiales\n \n \n \n \n 11\n \n \n * from surface-sterilized leaf tissue.", "txt_file_path": "txt/dfo323lmgvd/RAS-1984.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/5h73wh572", "rank": 0 }, { "id": 210246, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-1984", "page_number": 217, "title": "RAS-1984", "content_text": "196\n\nY.H. CHEUNG, K.Y. TAI, S.W. TSAO AND L.B. THROWER\n\nitems of diet for the higher trophic levels include phytoplankton, periphyton, polychaetes (eg. Nereis) and miscellaneous other invertebrates such as chironomid larvae, crustacean larvae, copepods (eg. Tigriopus japonicus), amphipods and isopods. The percentage composition of the gut contents of a range of animals is given in Table 5.\n\nTable 4. Characteristics of the bacterial colonies isolated from surface of mangrove leaves (Kandelia candel) after various periods of immersion in kei wai\n\n \n Period of immersion (days)\n 8\n 14\n 21\n 43\n \n \n Character\n \n \n \n \n \n \n Gram stain (+)\n 40*\n 30\n 67\n 60\n \n \n Gram stain (-)\n 60\n 70\n 33\n 40\n \n \n Rod\n 80\n 90\n 100\n 100\n \n \n Coccus\n 20\n 10\n 0\n 0\n \n \n Pigment\n \n \n \n \n \n \n White\n 25\n 67\n 40\n 75\n \n \n Yellow\n 22\n Orange\n 0\n 0\n \n \n Pink\n 11\n Grey\n 0\n 0\n \n \n Transparent\n 0\n MooMoo\n 0\n 20\n \n \n \n \n 0\n 40\n \n \n \n Biochemical character\n \n \n \n \n \n \n Glucose fermentation\n 25\n \n \n \n \n \n Starch hydrolysis\n 50\n \n \n \n \n \n Proteolysis\n 25\n \n \n \n \n \n Lipid hydrolysis\n \n \n \n \n \n \n Cellulolysis\n KAKKA\n 64\n 55\n 36\n \n \n \n 20\n 75\n 63\n 50\n \n \n \n 73\n 80\n 82\n 88\n \n \n \n 30\n 30\n 70\n 22\n \n \n \n 075\n 44\n \n \n \n\n* Percentage of isolates possessing each character\n\nThe results show the importance of detritus of plant origin (plant fragments) in the diet of these animals. It was most important in the case of invertebrates where it accounted for 22-40% of the gut contents, but made up 30% of the gut content of striped mullet (Mugil cephalus). Moreover, other undefined detrital material (sediments and inorganic particles) also made up a large", "txt_file_path": "txt/dfo323lmgvd/RAS-1984.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/5h73wh572", "rank": 0 }, { "id": 210248, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-1984", "page_number": 219, "title": "RAS-1984", "content_text": "198\n\nY.H. CHEUNG, K.Y. TAI, S.W. TSAO AND L.B. THROWER\n\nTable 5. Proportion of gut contents originating from various sources\n\n \n \n Micro-frag.\n Diatoms\n Plani\n Sedi-\n Cope-\n Poly-\n Chiron-\n Inverte\n Shrimps'\n Fishes'\n Cel | Panly Con-digested\n sub-stances\n \n \n \n \n \n Pods\n chacles'\n omid\n benes\n omid\n remains\n remains\n remains\n tent\n \n \n \n \n \n \n \n \n \n \n larve\n \n \n \n scopic algac\n \n \n \n Animal\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n Amphi pods\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n 20%\n 1\n \n \n inorganic particles\n 30%\n 30%\n \n \n \n \n \n \n \n \n Chicon-omid Jarvar\n 3%\n 19%\n 40\n 35\n \n \n \n \n \n \n \n \n \n \n Nereis sp.\n \n 30\n 30\n \n 30\n 1\n \n \n \n \n \n \n \n \n Crasso strea\n 18\n N\n 27\n 45\n \n \n \n \n \n \n \n \n \n \n Metap endeus MORO cerus\n 25\n 22\n 30\n \n \n \n \n \n \n \n \n \n \n \n Pando KHS orient alis\n 20\n 19\n 24\n 30\n \n \n \n \n \n \n \n \n \n \n Panda-JME SP\n 19\n 25\n 40\n \n \n \n \n \n \n \n \n \n \n \n Macro-Drucke iwor sp.\n 22\n 2\n 28\n 30\n \n \n \n \n \n \n \n \n \n \n Parap САДЕНТ fixe\n 20\n 10\n 26\n 36\n \n \n www\n \n \n \n \n \n \n \n Mugil cepha-fus Saroch erodon\n 111055- ambi.\n 9\n \n \n \n \n \n \n \n \n \n \n \n \n Glosso glob.\n $\n \n \n \n \n \n \n \n \n \n \n \n \n \n Mylio Jarus\n 10\n 26\n 5\n 30\n 55\n \n \n \n \n \n \n \n \n \n \n ―\n 58\n \n \n \n I\n \n 10%\n 1\n I\n \n \n \n \n Trophic level III (Omnivores)\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n Omnivorous fishes\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n Crabs\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n Shrimps\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n Polychaetes\n |\n remains\n 1\n 4601\n _\n J\n 15%\n *\n Tw\n I\n 1\n 10\n \n \n \n 706\n ―\n 50\n \n \n \n 35%\n \n \n \n \n \n \n \n Trophic level IV (Carnivores)\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n Wild birds\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n Snakes\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n Carnivorous fishes: Japanese sea-perch, blind sea-bass, yellow-finned sea-bream, black sea- bream, tigerfish, argus fish.\n \n \n \n \n \n \n \n \n \n \n \n \n \n\n!", "txt_file_path": "txt/dfo323lmgvd/RAS-1984.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/5h73wh572", "rank": 0 }, { "id": 210250, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-1984", "page_number": 221, "title": "RAS-1984", "content_text": "200 Y.H. CHEUNG, K.Y. TAI, S.W. TSAO AND L.B. THROWER\n\nDiscussion\n\nArguably, the traditional kei wai has two attractive economic features. The first is that it provides a method for controlled exploitation of recently-deposited alluvium. Probably, rearing of fish is the most feasible procedure for exploiting such sites and the construction of a kei wai requires much less equipment and labour than digging deep fish ponds. The second feature of the kei wai is that it facilitates exploitation of the nutrient-rich waters of an estuary to produce animal protein in a variety of forms.\n\nAn estuary has been defined as “an area in which sea water is appreciably diluted by fresh water from rivers” (Stewart, 1972). Therefore sources of energy and nutrients produced in terrestrial communities are carried by the rivers to the estuary, where tidal movement assists recycling of nutrients from consumer back to producer. This characteristic structure and function of an estuary has led to it being called a “nutrient trap” (Odum, E.P., 1971). The importance of supplements of energy and nutrients moving to the estuary from terrestrial communities has been shown clearly by Odum W.E. (1971) and Odum & Heald (1975) for a system in southern Florida. There an estuary is receiving material from an extensive mangrove community, and measurements showed that material to be more important as a basis for economic productivity than was photo-synthesis.\n\nIn considering the productivity of the waters of Hau Hoi Wan, it is relevant that Vrijmoed (1975) found that the weight of fouling organisms (invertebrate animals) accumulating on blocks of pine wood submerged for several months in Hau Hoi Wan was the greatest among the five sites she investigated within Hong Kong's coastal waters; this result reflects the high nutrient content of the water.\n\nThe inherently nutrient-rich water of the estuary is then impounded in the kei wai where it is further supplemented with nutrients and energy by the plant material that enters it. Microorganisms play an important part in fragmenting the plant material and converting much of the structural carbohydrates to protein. Consequently, the higher trophic levels have available material", "txt_file_path": "txt/dfo323lmgvd/RAS-1984.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/5h73wh572", "rank": 0 }, { "id": 210252, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-1984", "page_number": 223, "title": "RAS-1984", "content_text": "202\n\nY.H. CHEUNG, K.Y. TAI, S.W. TSAO AND L.B. THROWER\n\nReferences\n\nAnon (1979). Hong Kong 1979—a review of 1978. (Hong Kong: Government Information Services).\n\nBowen, S.H. (1980). Detrital non-protein amino acids are the key to rapid growth of tilapia in Lake Valencia, Venezuela. Science 207, 1216-1218.\n\nFogg, G.E. (1980). Phytoplanktonic primary production. In Barnes, R.S.K. & Mann, K.H. (edit) Fundamentals of Aquatic Ecosystems. (Blackwell: Oxford).\n\nHulscher, J.B. (1975). Het wad een overvloedodig of schaars gedekte tafel voor vogels? Symposium Waddenonderzoek Uitagave van Oecologisch Onderzoek, Arnhem.\n\nKing, J.R. and Farmer, D.S. (1961). Energy metabolism, thermoregulation and body temperature. In Marshall, A.J. (edit.) Biology and Comparative Physiology of Birds, Vol. II (Academic Press: London).\n\nMelville, D.S. (1978). Notes on food requirements of some birds at Mai Po. Notes privately circulated.\n\nOdum, E.P. (1971). Fundamentals of Ecology, 3rd Ed. (Saunders: Philadelphia)\n\nOdum, W.E. (1971). Pathways of energy flow in a south Florida estuary. Sea Grant Tech. Bull. No. 7, Univ. of Miami,\n\nOdum, W.E. & Heald, E.J. (1975). The detritus-based food web of an estuarine mangrove community. Estuarine Research I, 265-286.\n\nPark, D. (1975). A cellulolytic, pythiaceous fungus. Trans. Brit. mycol. Soc. 65, 249-257.\n\nPark, D. & McKee, W. (1978). Cellulolytic Pythium as a component of the river mycoflora. Trans. Brit. mycol. Soc. 77, 251-259.\n\nStewart, W.D.P. (1972). Estuarine and brackish waters an introduction. In Barnes, R.S.K. & Green, J. (ed.) The Estuarine Environment (Applied Science Publishers: London).\n\nVrijmoed, L.L.P. (1975). A study of lignicolous marine fungi in the coastal waters of Hong Kong. Univ. of Hong Kong: M.Phil. Thesis.", "txt_file_path": "txt/dfo323lmgvd/RAS-1984.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/5h73wh572", "rank": 0 }, { "id": 210254, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-1984", "page_number": 225, "title": "RAS-1984", "content_text": "204\n\nY.H. CHEUNG, K.Y. TAI, S.W. TSAO AND L.B. THROWER\n\n9. Planks lifted up so that the gate is open. The pegs for raising and lowering the planks can be seen clearly.\n\n10. General appearance of kei wai during a fish harvest: most of the water has flowed out and egrets are feeding on the exposed mud. An island in the kei wai is seen on the right.\n\nPage 225\n\nPage 226", "txt_file_path": "txt/dfo323lmgvd/RAS-1984.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/5h73wh572", "rank": 0 }, { "id": 210256, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-1984", "page_number": 227, "title": "RAS-1984", "content_text": "206\n\nY.H. CHEUNG, K.Y. TAI, S.W. TSAO AND L.B. THROWER\n\n13. Collecting produce from the net fastened across the sluicegate during shrimp harvest and fish harvest. The sluicegate is on the lower right and the conical net had been pulled up to remove produce from its narrower end.\n\n14. Catching eels from the muddy lower parts of the bund by probing with a stout fork. An eel can be seen twisted around the operator's wrist.", "txt_file_path": "txt/dfo323lmgvd/RAS-1984.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/5h73wh572", "rank": 0 } ]