A Review on Bamboo Resource in the African Region: A Call for Special Focus and Action

*e African region has untapped bamboo resource potential with immense socioeconomic, cultural, and ecological significances. Despite the long history of bamboo in the region, its contribution is at the infant stage. *erefore, the present study aimed at reviewing the existing literature supported by research experience on bamboo resource in the region. *e review process mainly focused on four main specific objectives. *ese include (1) review extensively African countries that owned the resource and identify the species in each country, (2) identify and document species, generic, and taxonomic tribes of each bamboo species, (3) assess and report bamboo area coverage from available nations, and (4) highlight the existing experiences of special opportunities, challenges, and successful achievements on bamboo resource in representative African countries. *e review process found out that a total of 4.56 million ha total bamboo area and 115 bamboo species are reported from 48 African countries. Hence, the African region shares 12.3% of the global bamboo resource and contributed 7.3% of the total bamboo species. Of this, 89.6% of the region is endowed with indigenous bamboo species. Among indigenous species, O. abyssinica is the most widely distributed in 38 African countries. Madagascar ranked first with 37 indigenous species, while Ethiopia led by 25 introduced bamboo species. Nowadays, Ethiopia has 1.44 million ha total indigenous bamboo area coverage, which accounted for 31.6% of the African region and 3.89% of the world total. *erefore, more detail and comprehensive research on species taxonomy, resource base inventory, silvicultural applications, and socioeconomic study is recommended.


Global Bamboo Resource Overview
Bamboo belongs to the subfamily Bambusoideae and family Gramineae or Poaceae [1][2][3]. Various sources speculated the origin of bamboo in the evolutionary line of plant kingdom. However, Clark estimated that bamboo origin was traced back probably some 30-40 million years ago [4]. It is one of the most important forest resources with immense socioeconomic, cultural, and ecological significances since ancient times. For instance, indigenous bamboo resource in Ethiopia has been used for different traditional uses including house construction, fencing, production of handicrafts and other household utensils, animal feed, edible shoots for human consumption, and many other uses. In the human history, bamboo cultivation and utilization in ancient China traced back to about 6000 years [5]. As early as 3000 years before, edible bamboo shoot has been used as a popular and delicious dish in China [6]. Nowadays, there are 1575 bamboo species [1] belonging to about 90 genera across the world [4,7]. e bamboo resource further covers a total area of about 37 million ha worldwide or around 1% of the global forest resource [7]. Its annual production also accounted for more than 20 million tons [8] and contributed $60 billion to the global economy [9]. In relation to this, bamboo resource is widely distributed around the world in diverse climatic and ecological settings. Its range covers from tropics, subtropics, and temperate to frigid zones [4,[10][11][12] approximately in 50°N-47°S [4]. e altitudinal ranges also vary from the sea level up to a higher elevation, i.e., 4500 m above the sea level [1].
In this insight, approximately 80% of the bamboo resource is found in the Asia-Pacific region [10,11]. Of this, more than 59% of the Asia-Pacific region [3,10,11] and 33.9% of the world bamboo species are found in China [1,3]. Currently, 534 bamboo species that belong to 34 genera are found in China [3] with the total area coverage of 7 million ha [11,16]. In contrast, the African region has very little bamboo resource in terms of species diversity and area coverage almost entirely limited to tropical zones [4]. It comprises 7% of the world bamboo resource with total area coverage of over 2.8 million ha within six nations [7]. erefore, it needs urgent call for special focus and action for the sustainable development and promotion of bamboo resource in the African region. is comprises (1) review extensively African countries that owned the resource and identify the species in each country by their scientific names, (2) identify and document bamboo species including their description and generic and taxonomic tribes of each bamboo species, (3) assess and report bamboo area coverage from African nations that have available information, and (4) highlight special opportunities, challenges, and successful achievements on bamboo resource in representative African countries.

Materials and Methods
A comprehensive and detail literature review was carried out from 108 published and accessed bibliographical sources. ese included 54 scientific journals, 15 books, 19 official documents from various nations and/or organizations and working studies, 11 workshop proceedings, manuals, and newspapers, 4 online accessed resources, and 5 academic theses. e review process encompassed both African countries and islands surrounding the mainland Africa. Consequently, the total area covered wider and diverse geographical locations and settings, altitudinal ranges, climatic conditions, and socioeconomic and cultural diversities and lifestyles. At the same time, the perception, experience, and knowledge of local people and nations focus towards bamboo resource are considerably varied. With this in mind, available data in each country were reviewed in detail, bamboo species were identified, and a species list was documented. ereafter, the scientific names and their synonymous if any were listed down and particular references are cited. After that, the generic names are identified and grouped under taxonomic tribes following different references. In the same way, regarding to the total bamboo area coverage in the region, data from available countries were extensively reviewed, and then, the countries list, bamboo area, and bamboo area to forest area coverage as well as percentage share are presented. e existing practical experiences on widely distributed, commonly used, and potentially high species are selected as representative species and extensively reviewed. Last, special opportunities, major challenges, and successful achievements are assessed from typical countries so as to strengthen the resource development and promotion in the region.

Origin and Distribution of Bamboo Resource in the African Region
Our extensive literature review showed that a total of 115 bamboo species are widely distributed among 48 countries in the African region (Table 1). is accounted for 7.3% of the global bamboo species and covered 82.8% of the African region. is covered vast areas which extend from western coast at Senegal to the eastern part at Mauritius, while it stretched from Morocco in the north to South Africa in the southern part. Out of the indigenous bamboo species, Oxytenanthera abyssinica is widely distributed among 38 countries, while Olyra latifolia is found within 30 countries. ese are followed by Oldeania alpina and Oreobambos buchwaldii, which are further recorded among 13 and 10 African countries, respectively. In the same way, 5 countries have Guaduella oblonga, while Bambusa vulgaris, Guaduella densiflora, and Hickelia africana are recorded among the 3 African countries, each. Regarding to introduced bamboo species, Bambusa vulgaris is widely distributed among 20 African countries, followed by Dendrocalamus giganteus within 10 countries. Also, D. asper and D. strictus are equally found in 6 countries, each (Table 1).
In relation to bamboo genera, the genus Bambusa contained 25 bamboo species, which accounted for 21.7% of the total recorded species in the region ( Table 2). is is followed by the genus Nastus and Dendrocalamus with 12 and 11 bamboo species, respectively. Similarly, 6 bamboo species are classified under the genus Guaduella, whereas 5 species are recorded under the genus Yushania. e genera Cephalostachyum and Hickelia followed with 4 species, each.
In the same way, a total of 35 bamboo genera are recorded in the African region, which are classified under five taxonomic tribes (Table 3). Of these, the tribe Bambuseae comprised a total of 19 (54.3%) bamboo genera, followed by Arundinarieae with 11 taxonomic genera. On the other hand, three tribes, namely, Guaduelleae, Olyreae, and Puelieae, contained one bamboo genera, each. In contrast, there is no concrete information available to group the remaining two bamboo genera to a given tribe and hence requires a further taxonomic study. In line with this, tribe Bambuseae is distributed among the 45 African nations and Olyreae is distributed among 30 nations (Table 3). 2 International Journal of Forestry Research Furthermore, comprehensive literature review confirmed that the distribution of bamboo resource in the African region can be classified broadly into two parts. ese are the mainland Africa and the associated six islands surrounding the continent (Comoros, Madagascar, Mauritius, Réunion, São Tomé and Príncipe, and Seychelles). e review process reported that mainland Africa has 83 bamboo species belonging to 30 genera (Table 4). Out of these species, 20 bamboo species are indigenous (native) to the region. e remaining 63 species are mainly introduced (exotic) from other regions (Asia-Pacific, America, or Africa itself ). On the other hand, the six islands comprise 50 species. Among these, 40 bamboo species are indigenous, while 10 of them are introduced from elsewhere. erefore, majority of the bamboo species (72.2%) are introduced to the mainland Africa at various times. By contrast, more diverse indigenous bamboo species (34.8%) are found within the six associated islands. is clearly shows that the mainland Africa has less rich and diverse indigenous compared to introduced bamboo species.
In the same way, a total of up to 45 bamboo species are reported from each country (Table 5). In terms of species origin, bamboo species are classified as indigenous to Africa or introduced from elsewhere. Among these, 22 countries have only indigenous (native) bamboo species, 5 countries have only introduced (exotic) species, while 21 countries owned both species. is reflects that 89.6% of the region is endowed with indigenous bamboo species. From indigenous species, Madagascar ranked first with a total of 37 bamboo species (refer Table 1), followed by Cameroon with 10 species (Table 1). is clearly shows that the species diversity and distribution at Madagascar is much richer than the mainland Africa [4,12]. Ghana and Tanzania also comprise 8 and 6 species, respectively (Table 1). On the other hand, Ethiopia ranked first with a total of 25 introduced bamboo species, followed by Togo with 20 species. Ghana and Kenya each contains with a total of 16 introduced species, whereas Nigeria and Sudan follow with 12 and 10 bamboo species, respectively.

Status and Potential of Bamboo Resource in the African Region
e status and potential of bamboo resource in the African region is reviewed from different sources. According to the reports, the data are only available from 12 African countries. In this insight, 12.3% of the global bamboo resource is contributed by the African region.
is indicated that bamboo development in the region is slightly improved as compared to 7% of total bamboo resource reported by FAO [7]. Ethiopia shares 31.55% of the total bamboo resource in the African region, followed by Senegal (14.49%) and Ghana (8.77%) (Table 6). Similarly, the bamboo to forest area coverage accounted for 11.51%, 7.99%, and 4.28% in their respective orders. However, the figure reported from Nigeria (34.88%) is an overestimated data and hence not yet verified [7]. By contrast, available data from Cameroon [23] and Zimbabwe (FAO (2001) cited in FAO [7] are also incomplete and do not represent the entire countries' resource. But, the intention to include these data is to show the resource potential and thereby to give more focus to the region. In the same way, the bamboo resource reported from other countries in the region (Tables 1 and 2) is not well known and estimated. erefore, we concluded that due attention should be given to the status and potential of bamboo resource in the African region.

Overview on Indigenous Bamboo Species in Ethiopia
Out of the total recorded indigenous bamboo species in the African region (60 species), two indigenous bamboo species (O. abyssinica and O. alpina) are widely distributed and commonly used in the region, and their origin also traced International Journal of Forestry Research  International Journal of Forestry Research 5      [35], suggesting that a huge resource potential is found in the region. eir tremendous socioeconomic, cultural, and ecological uses commonly practiced by the local people are also cited as a model for bamboo resource utilization. Among others, Ethiopia is well-known for the untapped resource potential and wider distribution of these species in different agroecologies. ere are also relatively more previous works carried out, and better information is comparatively available for these species. With this understanding, detail literature review on general background, biology, origin and distribution, status and resource potential, multipurpose uses, and silvicultural applications of O. abyssinica and O. alpina are extensively conducted and provided from Ethiopia. Figures and photos are further provided by the corresponding author from his previous professional experience in forestry research at the national research system particularly for indigenous bamboo species.

Oldeania alpina (K. Schum.)
Common name: highland/alpine/African alpine bamboo [2,4] Local name: Kerkeha in Amharic and Lemen in Affan Oromo languages [2,39]. Synonymous: Arundinaria alpina K. Schum., Yushania alpina (K. Schum.) W. C. Lin, and Sinarundinaria alpina (K. Schum.) Chao and Renv [2,4,17] Description: it grows up to a maximum height of 17 m and diameter of 13 cm from a stout branching rhizome [4]  Rhizome type: there is a controversial issue on the rhizome type of O. alpina (Figure 2(a)). It is either monopodial or leptomorph rhizome type [2] or pachymorph or sympodial rhizome type [4,29]. According to Meredith [4], some of the rhizome necks are exceptionally elongated and exhibit a spreading habit instead of forming a dense clump [4]. Such loose clump-forming pachymorph rhizome makes the species improperly considered under the running or creeping rhizome type, i.e., monopodial rhizome type [29]. Culms sheaths: the culm sheath (Figure 4(a)), which is covered with dense hairs, contains reddish-brown bristles and fimbriate auricles at the tip part [2]  Flowering pattern: the flowering pattern of O. alpina ( Figure 5) is sporadic flowering [29,39]. is means only some individuals or clumps within the bamboo forest are flowered, produce seeds, and eventually died, while the rest part of the bamboo forest is alive [39]. Yet, Kigomo [29] reported that after the flowering of the species, seeds are produced and still the flowered clumps are alive instead of dying.
Inflorescence: the paniculate inflorescence is loose to fairly compact in appearance. e shape of the spikelet, which is comprised 4-11 flowers, ranged from linear to linear-elliptic [2]. e author also noted that lanceolate to oblong-shaped lemmas on each spikelet are covered with hairs.
Distribution: O. alpina is found in montane forest often on volcanic soils, with Podocarpus in upland rainforest and with Juniperus in drier forest frequently planted along roads and in villages [2]. e species, which is indigenous to equatorial Africa, can grow in full sunlight but can also be found within a minimum temperature of −4 C [4]. It is distributed in Gojam, Shewa, Kefa, Gamo Gofa, Sidamo, and Bale regions ( Figure 6) at the altitudes ranging from 2200 m to 4000 m above the sea level [2]. Silvicultural application: despite the limited availability of seeds, the species is propagated by seeds as shown in Figure 7(a) [40] or collected seedlings from the wild at nursery. e species is also vegetatively propagated through offset cutting, culm cutting [29,41], culm layering, branch cutting, rhizome cutting [41], and macroproliferation [29,39].  Once seedlings are raised at nursery or green house (Figure 8(a)), weeding, hoeing, fertilizer application, supervision of insect and pest, and acclimatization (hardening) are carried out. Following this, seedlings are safely transported to prepared plantation sites and planted with or without the application of organic manure. Once established, the survival rate and growth performance of seedlings are supervised and dead seedlings are replaced. Hereafter, various plantation managements including thinning, fertilizer application, selective cutting, regular weeding and cleaning, soil loosening, supervision of insect pests and diseases, and controlling animal browsing, rodent damage, and fire outbreaks are conducted.

Key
Highland bamboo Lowland bamboo

International Journal of Forestry Research
Uses: traditional house construction and fencing, furniture and household utensils, farming tools, livestock fodder and traditional medicine, production of handicrafts (basketry, mats, hats, and decorative items), water pipes, weaving, beehive, musical instruments and weapons, walking sticks, furniture, and other household utensils. In recent years, various industries and factories are emerged on processing and production of bamboo products. Some of these products are production of toothpicks and chopsticks, parquet flooring, window blinds, curtains, bioenergy (charcoal and briquettes (Figure 9)), and other related products for local and international market.

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International Journal of Forestry Research characterized by a short-necked rhizome type, and each new rhizome turns up ward and sprouts to shoot and eventually develops into a young culm (Figure 2(b)). Culms: it has an erect or ascending culm with a height of 3-13 m and a culm diameter of 5-10 cm [2]. Unlike most of the bamboo species, it has semisolid culm (Figures 10(a) and 10(b)) during the early stage of development but solid after maturation [2,4,29,42]. During the early young stage, the culm is silky and hairy, while shiny with various colors after maturation [2]. Culms sheaths: it is covered with brown hairs with leaf blade at its tip part (Figure 4(a)). However, the sheath further consists of a few deciduous setae on the shoulders but without auricles [2]. Leaves: narrow lanceolate-oblong leaf blade is attached to culm sheath with a very short petiole or pseudopetiole [2] Flowering pattern: the flowering pattern of O. abyssinica is gregarious flowering (Figure 5(b)), i.e., mass flowering followed by mass death of the whole bamboo forest after seed production [38,42]. Still other findings report that the species has both flowering patterns, i.e., cyclical gregarious flowering and unpredictable sporadic flowering [29,42]. is suggests that there is no consistency of data on the flowering intervals of these species, and it varies among different sources. erefore, detail and long-term study on flowering phenomena needs special attention. Inflorescence: this species has an inflorescence with a spiky globose head and characterized by narrow lanceolate-shaped spikelet [2]. In addition, the same author noted that the fertile lemmas have comparable length to the spikelet unlike the sterile lemmas with a shorter size. Distribution: the species is widely distributed in lowland regions of western and northwestern parts of Ethiopia [43] in Tigray, Gonder, Gojam, and Welega regions as shown in Figure 6 [2]. Oxytenanthera abyssinica is found in savanna woodland, favoring river valleys, often forming extensive stands at the altitudes ranging from 1200 m to 1800 m above the sea level [2]. Yet, Meredith [4] explained that it is distributed throughout tropical Africa at altitudinal ranges from near the sea level to 2000 m in savannahs and on hillsides. Its annual rainfall ranges 700-1000 mm, which is concentrated over a period of three to four months with the mean annual temperature of above 30 C [42]. e species can grow at a minimum temperature of −1 C and prefers moist conditions along waterways [4]. However, this author further found out that O. abyssinica can grow in full sunlight, and it is also drought resistant and may be deciduous in hot and dry conditions. e species is easily adaptable to poor soils and provided as a buffer zone for desert areas. e species form either a large area pure forest or they are found as middle and lower layers in the mixed forest associated by other species in the mountainous areas.
Origin: indigenous to Ethiopia and endemic to Africa [13,14] Silvicultural application: the species is propagated by seeds as shown in Figure 7(b) [29,40,[44][45][46][47] or collected seedlings from the wild at nursery. ere is also better availability of O. abyssinica seeds, higher seed germination, and better greenhouse performance of seedlings compared to O. alpina ( Figure 8)(b) [40]. In addition, the species is vegetatively propagated through offset cutting, macroproliferation [29,42], and tissue culture [48]. Once seedlings are raised at nursery or green house, weeding, hoeing, fertilizer application, supervision of insects and pests, and acclimatization (hardening) are carried out [46]. Following this, seedlings are safely transported to prepared plantation sites and planted with or without the application of organic manure. Once established, the survival rate and growth performance of seedlings are supervised and dead seedlings are replaced. Hereafter, various plantation managements including thinning, fertilizer application, selective cutting, regular weeding and cleaning, soil loosening, supervision of insects, pests, and diseases, and controlling animal browsing, rodent damage, fire outbreaks are conducted. Uses: traditional house construction and fencing, furniture and household utensils, farming tools, edible shoot production, livestock fodder and traditional medicine, production of handicrafts (basketry, mats, hats, and decorative items), water pipes, weaving, beehive, musical instruments and weapons, walking sticks, furniture, and other household utensils. In recent years, various industries and factories are emerged on processing and production of bamboo products. Some of these products are production of toothpicks and chopsticks, parquet flooring, window blinds, curtains, bioenergy (charcoal and briquette), and other related products for local and international market.

Opportunities and Challenges on Bamboo
Resource in the African Region 6.1. Opportunities. Our extensive literature review indicated that bamboo resource has some tremendous opportunities for its development and promotion in the region. e African region has untapped bamboo resource potential with immense socioeconomic, cultural, and ecological significances to local people (Figures 11(a)-11(c)). At the same time, due to its fast growth rate, high biomass production, and short rotation period, bamboo resource is one of the most promising and suitable species to replace the forest resource. In recent years, emerging community-based bamboo processing cooperatives, enterprises, and industries for different end products are some of the opportunities. Some of these products are production of baskets, mats, toothpicks and chopsticks, parquet flooring, window blinds, curtains, and other related products for local and international market. Bamboo biomass also can provide a sustained source of feedstock for bamboo-based bioenergy production. us, bioenergy is produced by the conversion of bamboo biomass into solid fuels (firewood, charcoal, and briquette for cooking, heating, and lighting), liquid fuels or biofuels (bioethanol and biomethane production), and biogas (to produce power or electricity) [49]. Its suitability to replace the role of forest products such as timber and wood is its best potential value. For instance, bamboo culms are commonly served as scaffoldings and replaced the role of iron steel or wood functions [50]. Nowadays, timber harvesting, bamboo poles, and scaffoldings are emerging opportunities for bamboo resource development. Selling of bamboo culms is one of the attractive income generating activities in the bamboo sector in Ethiopia. According to Lou [8], the global bamboo trade is estimated to be between $1.5 and 2.5 billion. Out of $18 million exports of bamboo products in African, Ethiopia contributes $0.23 million, which is accounted for about 0.02% of the global exports [51]. e same study also reported that bamboo pole, which is the most exported bamboo commodity, accounted for about $0.23 million. A total of 89,845 highland bamboo poles are produced by the smallholder households for house construction, furniture production, handcraft making (bed, table, chair, shelve, and mat), fencing, and household utensils [52]. In turn, the average total annual income from bamboo in Sidama, Awi, and Sheka is 2235, 2084, and 284 Birr, respectively [53]. In the same way, out of the average annual 21000 bamboo culms supply, an average annual $6738 net income is earned at Addis Ababa market [54]. Edible bamboo shoots are one of the most important sources of daily dish with rich sources of nutritional contents. For instance, the nutritional analysis of indigenous bamboo species in Ethiopia (A. alpina and O. abyssinica) indicated that both species have almost comparable moisture content, ash, crude fiber, protein, fat, and mineral (iron, zinc, and sodium) composition [55]. By contrast, the same authors found that tannin and phytate contents in O. abyssinica and HCN in A. alpina are low. us, bamboo shoots production is one of the most promising species to ensure food security especially in the rural setting. Associated with this resource base assessment, introducing new species from elsewhere, propagation, utilization, and management practices of the bamboo resources are enhanced from time to time. On the other hand, it has a high potential to sink a considerable amount of carbon and hence confront climate change across the globe. For instance, literature review from various previous studies reported that mean carbon storage rate ranges from 30 Mg ha −1 to 121 Mg ha −1 , while the mean carbon sequestration potential is 6-13 Mg ha −1 yr −1 [56]. Similarly, the carbon sequestration potential of Moso bamboo is 43 tone ha −1 [8]. is, in turn, plays a paramount importance in the Clean Development Mechanism (CDM) and Climate Resilient Green Economy (CRGE).

Challenges and Constraints.
Despite immense opportunities of the resource, there are critical challenges faced to the bamboo resource in the African region. Our extensive literature review reported that data are almost unavailable, fragmented, inconsistent, and even contradictory [7]. For instance, the study further noted that out of 7 introduced bamboo species in Algeria, only 1 species is identified and included during this review. In addition, the resource is marginalized and neglected by development practitioners so that its utilization is restricted to traditional and cultural uses in the rural setting. Its importance and use are limited to hut construction, fencing, production of handicrafts (basketry, mats, hats, and decorative items), water pipes, furniture, and other household utensils. Among others, common occurrence in the river banks, stream banks, pocket areas, hillsides, between fields and abandoned areas, degraded areas, and planted as hedges are some of the existing evidences. Due to this reason, there are limited management practices, and hence, depletion of bamboo resource is the major concern in potential areas. Likewise, the resource is gradually declining due to various human-induced and natural factors. ese include agricultural expansion or shifting cultivation, high fuel wood demand, construction and human settlement, and other associated factors [7,13,14,36,39,42]. Uncontrolled and/or deliberate forest fire in the dryland areas, overgrazing/over browsing by livestock particularly during dry seasons in lowland areas (O. abyssinica) or in limited feed resource in the highland areas (O. alpina), and overharvesting the resource further aggravate the problem. Furthermore, limited availability of seeds; difficulty in seed collection, processing, and handling; low seed viability; and poor seed storage characteristics are the practical problems in bamboo large-scale propagation using seeds [40,47]. e problem is even more complicated with mass flowering and death of bamboo (Figures 5(a) and 5)(b), flowering at longer intervals, and unpredicted flowering [29,38,39,42]. Overall, all the aforementioned limitations influence the small-scale and large-scale plantation expansion and development, sustainable use and management, as well as genetic resource conservation of the species. erefore, it needs urgent call for special focus and action for the sustainable development and promotion of bamboo resource in the African region.

Successful Achievements on Bamboo Resource in the African Region
Despite the long history of bamboo resource in the African region, bamboo processing and utilization are at the infant stage. However, bamboo processing and utilization in Ethiopia have some base and more competitive than other African countries [57]. e same author reported that there are above 100 bamboo furniture enterprises in Ethiopia with high quality and well-designed products. is author also noted that four modem enterprises produce bamboo floor, door, curtain, charcoal, and other products in Ethiopia. Currently, some successful achievements have been conducted on bamboo development and promotion in the region. First, an international intergovernmental organization, i.e., International Network for Bamboo and Rattan (INBAR) was established in 1997 between China and Africa for the sustainable development of bamboo and rattan in Africa [12]. With this opportunity, 40 African countries are involved in this international cooperation and exchange between China and bamboo-growing countries [27]. Following this cooperation, several African nations have participated on short-term and long-term training and awareness raising opportunity on bamboo propagation, cultivation, and bamboo management. In relation to this, developing national bamboo policy in Kenya [58], national bamboo strategy and action plan in Ethiopia [51] and Uganda [59], as well as bamboo policy integration analysis in Ghana [60] are typical actions of bamboo development, promotion, and commercialization in the African region. In the same way, resource base inventory, introduction of new species from bamboo potential regions, propagation, cultivation, management, and sustainable utilization of bamboo resource in the African region become more strengthened. In relation with better awareness raising on bamboo development and promotion, some bamboo processing enterprises, cooperatives, and private industries and factories are emerged, providing various bamboo end products to either local or international markets. For instance, Bamboo Star Agro-Forestry Company and other bamboo factories and enterprises in Ethiopia are recently emerged and established for processing and producing bamboo endproducts either for local or international markets. Some of these products are production of toothpicks, chopsticks, and household furniture (table, door, and chair). Bamboo culms for scaffolding, casting concrete flooring, building and construction industry, pulp and paper production, laminated boards, and timber production by replacing forest wood in Africa are still new emerging experiences and skills. Furthermore, considering its immense socioeconomic, cultural, and ecological significances, various mega research projects have been initiated and implemented by some African countries. Among these, research projects on bamboo propagation, cultivation, management, and sustainable utilization as well as mass flowering and death of indigenous bamboo species in Ethiopia have been initiated and implemented formerly by the Ethiopian Institute of Agricultural Research (EIAR) and recently succeeded by Ethiopian Environment and Forest Research Institute (EEFRI) as typical model examples.

Conclusion and Recommendations
Our extensive literature review clearly showed that the African region has untapped bamboo resource potential with immense socioeconomic, cultural, and ecological significances. However, this resource is depleted as a faster rate associated with human-induced and natural factors.
In addition, there are no reliable and accurate resource base data due to the lack of well-defined definition and comprehensive resource base inventory in the region. Hence, the information is inaccessible, fragmented, inconsistent, and even contradictory. erefore, comprehensive research and accurate baseline information on bamboo resource is still required as a foundation for policy and management decisions. Similarly, most of the bamboo resource in the region is either public or state property, so that special focus and appropriate management intervention are not practiced. Hence, the ownership right on bamboo resource and associated land is also clearly specified and certified. At the same time, various silvicultural applications such as propagation, stand density management, fertilizer application, research on mass flowering and death of bamboo and its longer flowering cycle, and preharvesting and postharvesting technologies should be implemented for higher bamboo end products (timber, bioenergy, and edible shoot). Similarly, genetic resource conservation of bamboo species through ex situ conservation (e.g., seed storage in cold room at +5 C) and in situ conservation (establishing bamboo botanic garden at field) is also practiced despite the little effort. In line with this, establishing bamboo research institutions and stakeholders, community-based bamboo cooperatives and enterprisers, bamboo industries and factories, as well as small-scale and large-scale bamboo investors/farmers in plantation development should be further strengthened on bamboo resource development and promotion in the region.