DAFTAR PUSTAKA
Al, S. dan Ratnawati. 2004. Respons Konduktivitas Stomata dan Laju Transpirasi Rumput Blembem (Ischaemum ciliare, Retzius) di Sekitar Sumber Emisi Gas Kawah Sikidang. Dieng. Seminas Penelitian, Pendidikan dan Penerapan MIPA. FMPIA UNY. Yogyakarta. Al, S. Suryani dan Ratnawati.2003. Tanggapan stomata dan laju transpirasi daun Vaccinium varingiaefolium (Bl.) Miq. menurut tingkat perkembangan daun dan jarak terhadap sumber emisi gas belerang kawah sikidang dataran tinggi dieng. FMIPA UNY. Yogyakarta. Albrechtová, J., J. Janáček., and Z. Lhotáková. 2007. Novel effi cient methods for measuring mesophyll anatomical characteristics from fresh thick sections using stereology and confocal microscopy: application on acid raintreated Norway spruce needles. J Exp Bot 58:1451–1461 Backer, A. C. dan R. C. Bakhuizen van den Brink. 1968. Flora of Java.Vol.IX. Wolters. N. V. P. Noordhoff. Groningen. Netherland. Bayton, H. W. 1968. The ecology of an eln cloud forest in Puerto Rico. 2. The microclimate of Pico del Oeste. J. Arnold Arbor. 49: 419-430. Beerling, D. J. and C.K. Kelly. 1996. Evolutionary comparative analysis of the relationship between leaf structure and function. New Phytologist 134: 35–51. Beerling, D. J., H. H. Birks and F. I. Woodward.1995. Rapid late-glacial atmospheric CO2 changes reconstructed from the stomatal density record of fossil leaves. Journal of Quaternary Sciences 10: 379–384. Berlin, G. P. dan J. P. Miksche. 1976. Botanical Microtechnique and Cytochemistry. . The Iowa State University Press. Ames. Iowa. Campbell, N. A., J. B. Reece, dan L. G. Mitchell. 2003. Biologi Jilid 1 (Terjemahan) Erlangga. Jakarta. Chabot, F. B., and D. J. Hicks. 1982. The Ecology of Leaf Life Spans. Annu. Rev. Ecol. Syst. 13: 229-259. Chartzoulakis, K., A. Patakas, G. Kofidis, A. Bosabalidis, A. Nastou. 2002. Water stress affects leaf anatomy, gas exchange, waterrelations and growth of two avocado cultivars. Scientia Horticulturae. 95: 39–50
41
Connel, D.W and G. J .Miller. l995. Kimia dan Ekotoksikologi Pencemaran. UI Press Jakarta. Coupe. S. A., B. G. Palmer, J. A. Lake, S. A. Overy, K. Oxborough, F. I. Woodward, J. E. Gray and W. P. Quick. 2006. Systemic signalling of environmental cues in Arabidopsis leaves. Journal of Experimental Botany 57: 329–341. Delucia. E.H. and G. P. Berlyn. 1983. The effect of increasing elevation on leaf cuticle thickness and cutikular transpiration in balsam fir. Can.J.Bot 62:2423-2431. Delta, A. M., A Arbain dan Syamsuardi. 2013. Studi Jenis-Jenis Zingiberaceae di Kawasan Hutan Lindung Gunung Talang Sumatera Barat. J. Bio. UA 2(2): 161168 Fahn. A. and J. Benayoun. 1976. Ultrastructure of resin ducts in Pinus halepensis development, possible sites of resin synthesis, and mode of its elimination from the protoplast. Annuals of Botany 40: 857–863. Fahn, A. 1991. Plant anatomy 4th edition. pergamon press England. Fajrina, A. 2012. Analisis kemungkinan hybrid alami anatara Anaphalis longifolia (Blume) Blume ex DC. Dengan A. javanica (DC) Sch.Bip. (ASTERACEAE) berdasarkan karakter anatomi dan molekuler. Tesis. Pasca FMIPA UNAND. Padang Fitriani, V., S. Haryanti dan S. Darmanti. 2006. Hubungan antara Jarak Tanam dari Kawah Sikidang Dieng dengan Ukuran Sel Penutup dan Jumlah Stomata Daun Tumbuhan Kentang (Solanum tuberosum L) Buletin Anatomi dan Fisologi 14(2) : 47-55. Fitter, A. H and R. K. M. Hay . l994. Fisiologi Lingkungan Tumbuhan. UGM Press Yogyakarta Gan, Y., L. Zhou, Z. J. Shen, Z. X. Shen, Y. Q. Zhang, G. X. Wang. 2010. Stomatal clustering, a new marker for environmental perception and adaptation in terrestrial plants. Botanical Studies 51: 325-336 Giri, S., D. Shrivastava, K. Deshmukh And P. Dubey. 2013. Effect of Air Pollution on Chlorophyll Content of Leaves. Current Agriculture Research Journal, 1(2) : 93-98 Gostin, I. N. 2009. Air Pollution Effects on the Leaf Structure of some Fabaceae Species. Not. Bot. Hort. Agrobot. Cluj. 37 (2) : 57-63. Gray, J. E., G. H. Holroyd, F. van der Lee, P. C. Sijmons, F. I. Woodward, W. Schuch and A. M. Hetherington. 2000. HIC: a gene involved in controlling stomatal
42
development in responses to changes in atmospheric CO2 concentration. Nature 408: 713–715. Habibi, G. 2016. Photoprotection Mechanisms in Phlomis tuberosa Plants Growing at Low and High Altitudes. Journal of Current Plant Science Research, 2 : 17 Hale, M. G. and M. O David. l987. The Physiology of Plants Ander Stress. John Wiley and Sons. New York He. X. Q., Y. H. Lin and J. X. Lin. 1998. Research On Correlation Between Stomatal Density And Variation of Atmospheric Carbon Dioxide During A Century. Chinese Science Bulletin 43: 860–862 (in Chinese). Hidayat, B. 1995. Anatomi Tumbuhan Berbiji. Institut Tehnologi Bandung. Bandung Hopkins, W. G. 1995. Introduction to Plant Physiology. John Wiley and Sons. New York. Isda. M. N. 2001. Kecepatan transpirasi dan jumlah stomata beberapa jenis polypodiaceae epifit pada ketinggian berbeda. Tesis. Program Pascasarjana. UNAND. Padang. JianJing, M., J. ChengJun, H. Mei, Z. TingFang, Y. XueDong, H. D. Dong, Z. Hui and H. JinSheng. 2012. Comparative analyses of leaf anatomy of dicotyledonous species in Tibetan and Inner Mongolian grasslands. Life Sciences .55 (1): 68– 79 Kozlowski, T. T. and J, B. Mudd . 1975. Responses of plants to Air Pollution. New York: Academic Press. Kofidis, G. and A. M. Bosabalidis. 2008. Effects of altitude and season on glandular hairs and leaf structural traits of Nepeta nuda L. Botanical Studies 49: 363372. Körner, C. H. and M. Diemer. 1987. In situ photosynthetic responses to light, temperature and carbon dioxide in herbaceous plants from low and high altitude. Funct. Ecol. 1: 179-194. Kouwenberg, L. L. R., J. C. McElwain, W. M. Kurschner, F. Wagner, D. J. Beerling, F. E. Mayle and H. Visscher. 2003. Stomatal frequency adjustment of four conifer species to historical changes in atmospheric CO2. American Journal of Botany 90: 610–619.
43
Kubínová, L. 1994. Recent stereological Methods For Measuring Leaf Anatomical Characteristics: Estimation of The Number And Sizes of Stomata And Mesophyll Cells. J Exp Bot 45: 119–127 Kyuma, K. 1992. Plant soil Interaction At low pH. Faculty of Agriculture. Hokkaido University. Japan Larcher, W. 1995. Physiological Plant Ecology: Ecophysilogy and Stress Physiology of Functional Groups. Third Edition. Berlin: Springer- Verlays. Lawson, T. and M. R. Blatt. 2014. Stomatal size, Speed, and Responsiveness Impact on Photosyntesis and Water Use Efficiency. Plant Physiol. 164 : 1556-1570 Lichtenthaler, H. K. 1985. Differences in morphology and chemical composition of leaves grown at different light intensities and qualities. In: Baker, W.J. and Ong, C.K. (eds.) Control of Leaf Growth. Cambridge University Press, Cambridge Lin, F. S., F. J. Yun., Z. Kun., L. X. Jiao and C. K. Ming. 1999. Anatomical Characterics of Leaves and Wood Of Fagus Lucida and Their Relationship to Ecological Factors in Mountain Fanjingshan, Guihou, China. Acta Botanica Sinica. 41 (9) : 1002-1009. Lockheart, M. J., I. Poole, P. F. Van Bergen and R. P. Evershed. 1998. Leaf Carbon Isotope Composition And Stomatal Characters: Important Consideration For Palaeoclimate Reconstructions. Organic Geochemistry 29: 1003–1008. Malhotra, S. S. 1977. Effects of Aqueous Sulphur Dioxide on Chlorophyll Destruction in Pinus contorta. New Phytol. 78 : 101-109. Malhotra, S. S. and D. Hocking. 1976. Biochemical and Citologycal Effect Of Sulfur Dioxide on Plant Metabolism. New Phytol. New York Malik, N. 2014. Analisis kandungan Sulfur Dioksida (SO2) pada Daun Asam Keranji (Pitchelobium dulce) dan Ketapang (Terminalia catapa L.) di Pt. Kima, Makassar.Agriplus, 24 (03): 265-270 Megia, R., Ratnasari dan Hadisunarso. 2015. Karakteristik Morfologi dan Anatomi serta Kandungan Klorofil Lima Kultivar Tumbuhan Penyerap Polusi Udara Sansevieria trifasciata. Jurnal Sumberdaya HAYATI.1 (1) : 34-40 Musa, F. F., Syamsuardi dan A. Arbain. 2013. Keanekaragaman Jenis Orchidaceae (Anggrek-anggrekan)Di Kawasan Hutan Lindung Gunung Talang Sumatera Barat . J. Bio. UA 2(2): 153-160 Muthalib, A. 2009. Klorofil dan Penyebaran di Perairan. http://www.abdulmuthalib. co.cc/2009/06/. Diakses pada tanggal 4 april 2015.
44
Nasir, M. Purnomo dan Sudjino. l994. Pengaruh Gas Belerang dari Kawah – kawah di Dataran Tinggi Dieng terhadap Struktur Vegetasi dan Fisiologi Tumbuhan Dominaan di Sekitar Kawah. Berkala Biologi UGM. Yogyakarta Nugroho, L. H., Purnomo dan I. Sumardi. 2006. Struktur dan perkembangan Tumbuhan. Penebar Swadaya. Jakarta. Pato, J. and J. R. Obeso. 2012. Growth and Reproductive Performance in Bilberry (Vaccinium myrtillus) Along an Elevation Gradient. Ecoscience. 19(1):59-68 Patriyanus, Z. 1993. Jenis-jenis ericaceae pada beberapa daerah di Sumatera Barat. Tesis sarjana biologi FMIPA UNAND. Padang. Polle, A., L. O. Baumbusch, C. Oschinski, M. Eiblmeier, V. Kuhlenkamp, B. Vollrath, F. Scholz and H. Rennenberg. 1999. Growth and protection against oxidative stress in young clones and mature spruce trees (Picea abies L.) at high altitudes. Oecologia, 121: 149–156. Pusat Vulkanologi dan Mitigasi Bencana Alam (PVMBA). 2007. Deskripsi Talang http://www.vsi.esdm.go.id/.Diakses 27 april 2015. Rinawati, D. 1991. Pengaruh Pencemaran Udara di Jalan Pramuka Jakarta terhadap Kondisi Fisisk dan Struktur Anatomi daun dari Anakan Beberapa Jenis Pohon. Jurusan Konservasi Hutan, Fakultas kehutanan,IPB. Bogor. Robinson. T. 1995. Kandungan Organik Tumbuhan Tinggi. Penerbit ITB. Bandung Royer, D. L., S. L. Wing, D. J. Beerling, D. W. Jolley, P. L. Koch, L. J. Hickey and R. A. Berner. 2001. Paleobotanical evidence for near-presentday levels of atmospheric CO2 during part of the Tertiary.Science 292: 2310–2313. Rushayati, S. B. dan R. Y. Maulana. 2005. Respon Pertumbuhan Serta Anatomi Daun Kenari (Canarium commune L) dan Akasia (Acacia mangium Willd) Terhadap Emisi Gas Kendaraan Bermotor. Media Konservasi. 10(2) : 71 – 76. Sadiyah, E. R., dan R. A. Kodir. (2012). Studi awal kandungan antosianin pada buah Cantigi ungu (vaccinium varingiaefolium (bl.)Miq.) yang berpotensi sebagai Suplemen antioksidan. Prosiding SnaPP 3 (1) : 95-100. Salisbury, F. B dan C.W. Ross. 1995. Plant fisiology 3rd. Wadsworth Publishing Company. California Sass, J. E. 1958. Botanical Microtechnique. Second Edition. The Iowa State University Press. Ames. Iowa. Schoettle, A. W and S. G. Rochelle. 2000. Morphological variation of Pinus flexilis (Pinaceae), a bird-dispersed pine, across a range of elevations. American Journal of Botany 87: 1797–1806.
45
Soumyanath, A. 2005. Traditional Medicines for Modern Times. Taylor & Francis Group. New York Streb, P., W. Shang,J . Feierabend and R. Bligny. 1998. Divergent strategies of photoprotection in high-mountain plants. Planta. 207: 313–324. Susanti, E. 2004. Stomata Sebagai Bioindikator Pencemaran Udara Sektor Transportasi. ITB Bandung Syamsuardi, R., Tamin dan Nurainas. 2006. Upaya Meningkatkan Mutu Pembelajaran Mata Ajaran Taksonomi Tumbuhan Tingkat Tinggi dengan Media Interaktif Berbasis Komputer. Research Grant Proyek TPSDP UNAND. Padang Thorpe, N. O. 1984. Cell Biology. John Wiley and Sons. New York. Tiwari S. P., P. Kumar, D. Yadav, D. K. Chauhan. 2013. Comparative Morphological, Epidermal, And Anatomical Studies of Pinus roxburghii needles at different altitudes in the North-West Indian Himalayas. Turk J Bot 37: 65-73 Treshow, M. 1970. Enviroment and Plant Response. New York: McGraw-Hill. Van de Water, P. K., S. W. Leavitt and J. L. Betancourt. 1994. Trends in stomatal density and 13C/12C ratio of Pinus flexilis needles during last glacial-interglacial cycle. Science 264: 239–243. Vickeys, M. L. 1984. Ecology of Tropical Planta. John Willey and Son. Toronto Whitmore, T. C. 1984. Tropical rain forests of the Far East. 2nd ed. Clarendon Press, Oxford. Whitten, A. J., S. J. Damanik, J. Anwar and N. Hisyam .1984. Ekologi Ekosistem Sumatera. Gadjah Mada University Press. Yogyakarta. Woodward, F. I. and F. A. Bazzaz. 1988. The response of stomatal density to CO2 partial pressure. Journal of Experimental Botany 39: 1771–1781. Xu, Z. and G. Zhou.2008. Responses of leaf stomatal density to water status and its relationship with photosynthesis in a grass. Journal of Experimental Botany. 59(12) :3317–3325 Yamamoto, A., G. Takeda and T. Nakajima. 1985. Influence of Restriction of Soil Moisture and Light Intensity on Stomatal Density Japan. Jour. Crop. Sci. 54(2) :127-133 Yi, H., J. Yin, X. Liu, X. Jing, S. Fan, H. Zhang. 2012. Sulfur dioxide induced programmed cell death in Vicia guard cells. Ecotoxicology and Environmental Safety 78 (2012) 281–286
46
Yudha, G.P., Z.A. Noli dan M. idris. 2013. Pertumbuhan Daun Angsana (Pterocarpus indicus Willd) dan Akumulasi Logam Timbal (Pb). J. Bio. UA 2(2): 83-89 Zhao, X.Z., Yang, Y.S. and Shen, Z.X. 2006. Stomatal clustering in Cinnamomum camphora. South Africa. J. Bot. 72: 565-569. Zulkifli, H. 1997. Biologi Lingkungan. Universitas Riau. Riau
47
