The RIFT-FABI Tree Protection Programme (RFTPP), is a cooperative venture programme established between the Research Institute of Fast-growing Trees (RIFT)  of the Chinese Academy of Forestry in China, and the Forestry and Agricultural Biotechnology Institute (FABI), at the University of Pretoria in South Africa. This Programme has arisen from a long term collaboration between the two institutions that was formally established in 2014. The relationship initially arose from joint funding to the two groups respectively by the Governments of the Peoples Republic of China and the Republic of South Africa as part of bi-lateral funding managed by the Department of Science and Technology (South Africa) and Ministry of Science and Technology in China. This funding has been sustained at various levels over a eight year period and it has resulted in many important outputs in terms of fundamental research, solutions to eucalypt disease problems and education of post graduate students (Human Capacity Development).

The precursor of the RFTPP was a the CERC-FABI Tree Protection Programme was a programme also previously known as the CERC-FABI Eucalyptus Pathology Programme (CFEPP). The overall objectives of that programme were to promote research and knowledge sharing concerning diseases of Eucalyptus. This objective was pursued very effectively but it has been recognized that the opporutnities and needs extend far beyond Eucalyptus and likewise beyond pathology. The need to include other tree crops and entomology has given ruise to an extended programme focused more broadly on TREE HEALTH. Thus, the primary goal of the RFTPP is to build further collaboration and associated opportunities in the field of on tree health research between RIFT and FABI.

Forestry represents one of the most important industrial sectors in China and in South Africa. In China, native forest ecosystems have been strictly protected since 2000, for this reason, plantations of tree such as eucalypts, pines and poplars, have been established to meet the needs of the national economy. By the end of 2013, around 4.5 million hectares of eucalypts have been planted in South China, which makes up about 6% of the whole plantation area of the country. At present, more than 20% of timber in China is obtained from eucalypts. There is no doubt that there will be an ongoing increase in commercial plantations in China to meet the growing needs for timber, paper and pulp in the future. In South Africa, the forestry industry is, similar to China, based on commercially managed plantations of non-native trees such as pine, eucalypts and exotic acacias. These plantations cover in excess of 1.5 million hectares and industry is one of the most important sources of export capital and employment.

The China Eucalypt Research Centre (CERC) (http://www.chinaeuc.com/enDefault.aspx) is the primary organization working on eucalypt breeding in China and it plays an essential role in supporting the eucalypt plantation industry in China. CERC also serves as the headquarters of the China Eucalypt Society and China Eucalypt Breeding Alliance. The research team of the Centre holds first hand knowledge and information regarding eucalypt plantations in China, and has published a large number of papers nationally and internationally in this field.

The Forestry and Agricultural Biotechnology Institute (FABI: http://www.fabinet.up.ac.za/) includes a research programme that represents the world's single largest team investigating pest and pathogen problems affecting plantation-grown forest trees, particularly those in the tropics and southern hemisphere. Since 1990, this research team in South Africa has been working extensively to support forestry companies in South Africa as well as those from other parts of the world. In addition to greatly contributing substantially to tree health and sustainable management of forestry through their research, a very substantial base of new knowledge has been generated on diseases and pests that damage forests and threaten the sustainability of forestry. Work has been published extensively in the international literature and students from many different parts of the world have benefited from post graduate education in the field of forest protection.

RIFT and FABI are both committed to promoting an enhanced understanding of the threat of pathogens and pests to forest plantations. They especially recognize the benefits that will come from collaboration and sharing knowledge pertaining to diseases and pests threatening the sustainability of plantations in China, South Africa and elsewhere in the world. Based on this realisation, the two institutions have agreed to established a programme known as the CERC-FABI Tree Protection Programme (CFTPP), now renamed the RFTPP. Funding for this collaborative venture comes from various sources including the South African and Chinese Governments, industrial companies, statutory and aid organisations.

Objectives of the RFTPP
• Study diseases and pests that threaten forests and forest plantation development in China and South Africa
• Understand the diversity, ecology, pathology and spread of these pathogens and pests that damage trees
• Screen genetic stock used to establish plantationsplantation tree hybrids and clonal material for resistance to the most important diseases and insect pests
• Promote joint opportunities relating to the biological control of insect pests
• Train young researchers in the broad fields related to tree health biotechnology
• Establish and maintain an innovative a model for science and technology cooperation between scientists in China and South Africa

People's Republic of China, Former Minister of Education, Madam ZiLi Chen's visit to FABI.

Forestry represents one of the most important industrial sectors in South Africa (SA) and in the People's Republic of China (PRC). In South Africa, the Forestry Industry is based on commercially managed plantations of non-native tree species such as those of Pine, Eucalypts and Acacias. These plantations cover in excess of 1.5 million hectares and industry is one of the most important sources of export capital and employment. In contrast, Forestry in China is mainly concerned with the management of natural forest. Here, forests cover 18.2% of the total land area, with more than 170 million hectares of forest. Of this, 69% is regarded as natural forest, and 31% is represented by plantations.

Native forest ecosystems in China have been strictly protected from logging since 2000. For this reason Eucalypt plantations have been established to meet the needs of the rapidly growing national economy. At the present time, in excess of 1.7 million hectares of Eucalypt trees have been planted in South China, especially in the provinces of GuangXi, GuangDong, HaiNan, FuJian, and Yunnan. Moreover, the company Asian Paper and Pulping (APP) has established one of the first pulp mills supplying approximately 1 million tons of pulp P/A in the HaiNan province. Two additional pulp mills with similar production capacity are in the process of being constructed in GuangDong and GuangXi and these should come on line in 2007. There is no doubt that there will be a substantial increase in Eucalyptus planting in China to meet the growing paper and pulp needs of the future.

Dr. ShuaiFei Chen
China Eucalypt Research Centre (CERC), Chinese Academy of Forestry (CAF)
30, Middle Renmin Avenue, Zhanjiang 524022, GuangDong Province, China
Tel: +86 759 3381022
Fax: +86 759 3380674
E-mail: shuaifei . chen @ fabi.up.ac.za OR shuaifei . chen @gmail.com (please remove gaps)
Prof. Mike Wingfield
Forestry and Agricultural Biotechnology Institute (FABI), University of Pretoria
Lunnon Road, Hillcrest, Pretoria, 0002, South Africa
Tel: +27 12 420 3938
Fax: +27 12 420 3960
E-mail: mike . wingfield @fabi.up.ac.za (please remove gaps)

PUBLICATIONS

• Chen SF, Li GQ, Liu FF, Michailides TJ. 2015. Novel species of Botryosphaeriaceae associated with shoot blight of pistachio. Mycologia DOI:10.3852/14-242
• Li GQ, Arnold RJ, Liu FF, Li JQ, Chen SF. 2015. Identification and pathogenicity of Lasiodiplodia species from Eucalyptus urophylla × grandis, Polyscias balfouriana and Bougainvillea spectabilis in southern China. Journal of Phytopathology DOI:10.1111/jph.12398
• Liu FF, Mbenoun M, Barnes I, Roux J, Wingfield MJ, Li GQ, Li JQ, Chen SF. 2015. New Ceratocystis species from Eucalyptus and Cunninghamia in South China. Antonie van Leeuwenhoek DOI:10.1007/s10482-015-0441-3
• Lombard L, Chen SF, Mou X, Zhou XD, Crous PW, Wingfield MJ. 2015. New species, hyper-diversity and potential importance of Calonectria spp. from Eucalyptus in South China. Studies in Mycology 80, 151-188. DOI:10.1016/j.simyco.2014.11.003
• Chen SF, Morgan DP, Hasey JK, Anderson K, Michailides TJ. 2014. Botryosphaeriaceae and Diaporthaceae associated with panicle and shoot blight pistachio in California. Plant Disease 98, 636–652. DOI:10.1094/PDIS-07-13-0706-RE
• Chen SF, Morgan DP, Michailides TJ. 2014. Botryosphaeriaceae and Diaporthaceae associated with panicle and shoot blight pistachio in California, USA. Fungal Diversity 67, 157-179. DOI:10.1007/s13225-014-0285-6
• Luo JZ, Arnold RJ, Lu WH, Lin Y. 2014. Genetic variation in Eucalyptus camaldulensis and E. tereticornis for early growth and susceptibility to the gall wasp Leptocybe invasa in China. Euphytica 196, 397-411. DOI:10.1007/s10681-013-1042-8
• Romón P, De Beer ZW, Zhou XD, Duong TA, Wingfield BD, Wingfield MJ. 2014. Multigene phylogenies of Ophiostomataceae associated with Monterey pine bark beetles in Spain reveal three new fungal species. Mycologia 106, 119-132. DOI:10.3852/13-073
• Chen S, Van Wyk M, Roux J, Wingfield MJ, Xie Y, Zhou X. 2013. Taxonomy and pathogenicity of Ceratocystis species on Eucalyptus trees in South China, including C. chinaeucensis sp. nov. Fungal Diversity 58, 267-279.
• Chen SF, Wingfield MJ, Roets F, Roux J. 2013. A serious canker disease caused by Immersiporthe knoxdaviesiana gen. et sp. nov. (Cryphonectriaceae) on native Rapanea melanophloeos in South Africa. Plant Pathology 62, 667-678.
• Chen SF, Wingfield MJ, Roux J. 2013. Diversimorbus metrosiderotis gen. et sp. nov. and three new species of Holocryphia (Cryphonectriaceae) associated with cankers on native Metrosideros angustifolia trees in South Africa. Fungal Biology 117, 289–310.
• Chang RL, Arnold RJ, Zhou XD. 2012. Association between enzyme activity levels in Eucalyptus clones and their susceptibility to the gall wasp, Leptocybe invasa, in South China. Journal of Tropical Forest Science 24:256-264.
• Chen SF, Barnes I, Chungu D, Roux J, Wingfield MJ, Xie YJ, Zhou XD. 2011. High population diversity and increasing importance of the Eucalyptus stem canker pathogen, Teratosphaeria zuluensis, in South China. Australasian Plant Pathology 40, 407-415.
• Chen S, Gryzenhout M, Roux J, Xie Y, Wingfield MJ, Zhou X. 2011. Novel species of Celoporthe from Eucalyptus and Syzygium trees in China and Indonesia. Mycologia 103, 1384-1410.
• Chen SF, Lombard L, Roux J, Xie YJ, Wingfield MJ, Zhou XD. 2011. Novel species of Calonectria associated with Eucalyptus leaf blight in Southeast China. Persoonia 26, 1-12.
• Chen SF, Pavlic D, Roux J, Slippers B, Xie YJ, Wingfield MJ, Zhou XD. 2011. Characterization of Botryosphaeriaceae from plantation-grown Eucalyptus species in South China. Plant Pathology 60, 739-751.
• Zhou X, Wingfield MJ. 2011. Eucalypt diseases and their management in China. Australasian Plant Pathology 40, 339-345.
• Chen SF, Gryzenhout M, Roux J, Xie YJ, Wingfield MJ, Zhou XD. 2010. Identification and Pathogenicity of Chrysoporthe cubensis on Eucalyptus and Syzygium spp. in South China. Plant Disease 94, 1143-1150.
• Grobbelaar JW, de Beer ZW, Bloomer P, Wingfield MJ, Zhou XD, Wingfield BD. 2010. Discovery of Ophiostoma tsotsi on Eucalyptus wood chips in China. Mycoscience 52, 111-118.
• Lombard L, Zhou XD, Crous PW, Wingfield BD, Wingfield MJ. 2010. Calonectria species associated with cutting rot of Eucalyptus. Persoonia 24, 1-11.
• Paciura D, de Beer ZW, Jacobs K, Zhou XD, Ye H, Wingfield MJ. 2010. Eight new Leptographium species associated with tree-infesting bark beetles in China. Persoonia 25, 94-108.
• Paciura D, Zhou XD, De Beer ZW, Jacobs,Ye H, Wingfield MJ. 2010. Characterisation of synnematous bark beetle-associated fungi from China,including Graphium carbonarium sp. nov. Fungal Diversity 40, 75-88.
• Lombard L, Zhou XD, Crous PW, Wingfield BD, Wingfield MJ. 2010. Calonectria species associated with cutting rot of Eucalyptus. Persoonia 24, 1-11.
• Lu M, Zhou XD, De Beer ZW, Wingfield MJ, Sun JH. 2009. Ophiostomatoid fungi associated with the invasive pine-infesting bark beetle, Dendroctonus valens, in China. Fungal Diversity 38, 133-145.
• Yamaoka Y, Masuya H, Chung WH, Goto H, To-Anun C, Tokumasu S, Zhou X, Wingfield MJ. 2008. The teleomorph of Leptographium yunnanense, discovered in crosses among isolates from Thailand, China, and Japan. Mycoscience 49, 233-240.
• Zhou XD, Jacobs K, Kirisits T, Chhetri DB, Wingfield MJ. 2008. Leptographium bhutanense sp. nov., associated with the root collar weevil Hylobitelus chenkupdorjii on Pinus wallichiana in Bhutan. Persoonia 21, 1-8.
• Zhou XD, Xie YJ, Chen SF, Wingfield MJ. 2008. Diseases of eucalypt plantations in China: challenges and opportunities. Fungal Diversity 32, 1-7.
• Romón P, Zhou X, Iturrondobeitia JC, Wingfield MJ, Goldarazena A. 2007. Ophiostoma species (Ascomycetes: Ophiostomatales) associated with bark beetles (Coleoptera: Scolytinae) colonizing Pinus radiata in northern Spain. Canadian Journal of Microbiology 53, 756-767.
• Zhou X, Burgess TI, De Beer ZW, Lieutier F, Yart A, Klepzig K, Carnegie A, Portales JM, Wingfield BD, Wingfield MJ. 2007. High intercontinental migration rates and population admixture in the sapstain fungus Ophiostoma ips. Molecular Ecology 16, 89-99.
• Zhou XD, De Beer ZW, Xie Y, Pegg GS, Wingfield MJ. 2007. DNA-based identification of Quambalaria pitereka causingsevere leaf blight of Corymbia citriodora in China. Fungal Diversity 25, 245-254.
• Cortinas MN, Burgess T, Dell B, Xu DP, Crous PW, Wingfield BD, Wingfield MJ. 2006. First record of Colletogloeopsiszuluense comb. nov., causing a stem canker of Eucalyptus in China. Mycological Research 110, 229-236.
• Zhou XD, De Beer ZW, Wingfield MJ. 2006. DNA sequence comparisons of Ophiostoma spp., including Ophiostoma aurorae sp. nov., associated with pine bark beetles in South Africa. Studies in Mycology 55, 269-277.
• Kim JJ, Lim YW, Breuil C, Wingfield MJ, Zhou XD, Kim GH. 2005. A new Leptographium species associated with Tomicus piniperda infesting pine logs in Korea. Mycological Research 109, 275-284.
• Zhou XD, De Beer ZW, Ahumada R, Wingfield BD, Wingfield MJ. 2004. Ophiostoma and Ceratocystiopsis spp. associated with two pine-infesting bark beetles in Chile. Fungal Diversity 15, 261-274.
• Zhou X, De Beer ZW, Cibrian D, Wingfield BD, Wingfield MJ. 2004. Characterisation of Ophiostoma species associated with pine bark beetles from Mexico, including O. pulvinisporum sp. nov. Mycological Research 108, 690-698.
• Zhou X, De Beer ZW, Harrington TC, McNew D, Kirisits T, Wingfield MJ. 2004. Epitypification of Ophiostoma galeiforme and phylogeny of species in the O. galeiforme complex. Mycologia 96, 1306-1315.
• Zhou XD, Burgess T, De Beer ZW, Wingfield BD, Wingfield MJ. 2002. Development of polymorphic microsatellite markers for the tree pathogen and sapstain agent, Ophiostoma ips. Molecular Ecology Notes 2, 309-312.
• Zhou XD, De Beer ZW, Wingfield BD, Wingfield MJ. 2002. Infection sequence and pathogenicity of Ophiostoma ips, Leptographium serpens and L. lundbergii to pines in South Africa. Fungal Diversity 10, 229-240.
• Wingfield MJ, Slippers B, Zhou XD, De Beer ZW, Govender P, Wingfield BD. 2001. Global spread of insect-associated fungi on exotic plantation pines. IUFRO World Series 11, 107-114.
• Zhou XD, De Beer ZW, Wingfield BD, Wingfield MJ. 2001. Ophiostomatoid fungi associated with three pine-infesting bark beetles in South Africa. Sydowia 53, 290-300.