Abstract
Key message
The paper demonstrates the prospects and applications of dendrochronology for understanding climate change effects on riparian forests in the savanna landscape.
Abstract
Riparian trees in savannas have a potential for dendro-climatic studies, but have been neglected hitherto. We examined ring-width series of Afzelia africana (evergreen) and Anogeissus leiocarpus (deciduous) to study the influence of climatic factors on the growth of riparian trees in the humid (HS) and dry (DS) savanna zones of the Volta basin in Ghana. A total of 31 stem discs belonging to A. africana and A. leiocarpus were selected from HS and DS to establish species-specific local chronologies of tree growth. Each individual of A. africana and A. leiocarpus from the two savanna sites showed distinct growth rings. Cross-dating of individual tree-ring patterns was successful using standard dendrochronological techniques. The mean annual growth rates of A. africana in the HS (1.38 ± 0.09) and DS (1.34 ± 0.08) were not statistically different. Furthermore, mean annual growth rate of A. leiocarpus in the DS (3.75 ± 0.27) was higher than in the HS (2.83 ± 0.16) suggesting that species in drier environment can have higher growth rates when sufficient soil moisture is available. The growth rates of both species at the same sites were different, which might indicate different water use strategies. High correlations of individual tree-ring series of A. africana and A. leiocarpus trees at HS and DS suggest a strong climatic forcing controlled by the seasonal movement of the inter-tropical convergence zone. The annual growth of A. africana and A. leiocarpus at both the HS and DS was significantly correlated with local temperature and precipitation. The negative correlations of the growth of the two tree species to global sea surface temperatures were however, indications that the growth of riparian forests can be impacted during El Niño-Southern Oscillation years. The result of our study shows that riparian trees in the humid and dry savanna zones of West Africa can be successfully used for dendrochronological studies.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Andary C, Doumbia B, Sauvan N, Olivier M, Garcia, M (2005) Anogeissus leiocarpus (DC.) Guill. and Perr. Record from PROTA4U. In: Jansen PCM, Cardon D (eds) PROTA (Plant Resources of Tropical Africa/Resources végétales de l’Afrique tropicale), Wageningen, Netherlands. http://www.prota4u.org/search.asp. Accessed 15 Nov 2015
Anyomi KA, Kahle H-P, Spiecker H, Adu-Bredu S (2007) Climatic influences on stem radial growth of Teak (Tectona grandis) in Ghana. Report reference number 079107s. International Tropical Timber Organization, Yokohama, p 20
Azihou FK, Glele KR, Ronald B, Brice S (2013) Distribution of tree species along a gallery forest–savanna gradient: patterns, overlaps and ecological thresholds. J Trop Ecol 29:25–37
Baillie MGL, Pilcher JR (1973) A simple cross dating program for tree-ring research. Tree-Ring Bull 33:7–14
Balas N, Nicholson SE, Klotter D (2007) The relationship of rainfall variability in West Central Africa to sea-surface temperature fluctuations. Int J Climatol 27:1335–1349
Boakye EA, Hyppolite DN, Barnes VR, Porembski S, Thiel M, Kouamé FN, Kone D (2015) Threat of agricultural production on woody plant diversity in Tankwidi riparian buffer in the Sudanian Savanna of Ghana. Int J Biodivers Conserv 7:354–363
Boakye EA, Hyppolite DN, Barnes VR, Porembski S, Thiel M, Kouamé FN, Kone D (2016) Comparative analysis of woody composition of farmlands and forest reserve along Afram river in a tropical humid savanna of Ghana: Implications to climate change adaptation. In: Filho WL (ed) Innovation in climate change adaptation, climate change management. Springer, Switzerland, pp 195–209
Bunn AG (2008) A dendrochronology program library in R (dplR). Dendrochronologia 26(576):115–124
Bunn AG (2010) Statistical and visual cross-dating in R using the dplR library. Dendrochronologia 28:251–258
Caldararu S, Purves DW, Palmer PI (2014) Phenology as a strategy for carbon optimality: a global model. Biogeosciences 11:763–778
Callo-Concha D, Gaiser T, Ewert F (2012) Farming and cropping systems in the West African Sudanian Savanna. In: WASCAL research area: Northern Ghana, Southwest Burkina Faso and Northern Benin. ZEF Working Paper 100, University of Bonn, Bonn
Cook ER, Briffa KR, Shiyatov S, Mazepa A, Jones PD (1990) Data analysis. In: Cook ER, Kairiukstis LA (eds) Methods of dendrochronology: applications in the environmental sciences. Kluwer Academic Publishers, Dordrecht, pp 97–162
D’Arrigo RD, Wilson R, Deser C, Wiles G, Cook E, Villalba R, Tudhope A, Cole J, Linsley B (2005) Tropical–North Pacific climate linkages over the past four centuries. J Clim 18:5253–5265
de Condappa D, Lemoalle J (2009) Water atlas of the Volta Basin-Atlas de l’eau dans le basin de la Volta. Challenge Program on Water and Food and Institut de Recherche pour le Développement, Colombo, Marseille, p 96
Descroix L, Mahé G, Lebel T, Favreau G, Galle S, Gautier E, Olivry JC, Albergel J, Amogu O, Cappelaere B, Dessouassi R, Diedhiou A, Le Breton E, Mamadou I, Sighomnou D (2009) Spatio-temporal variability of hydrological regimes around the boundaries between Sahelian and Sudanian areas of West Africa: a synthesis. J Hydrol 375:90–102
Deser C, Phillips A, Hurrel J (2004) Pacific interdecadal climate variability: linkages between the tropics and North Pacific during boreal winter since 1900. J Clim 17:3109–3124
Eckstein D, Bauch J (1969) Beitrag zur Rationalisierung eines dendrochronologischen Verfahrens und zur Analyse seiner Aussagesicherheit. Forstwiss Centbl 88:230–250
ECOWAS/SWAC (2008) Climate and climate change. Atlas on regional integration in West Africa environment series. Economic Community of West Africa, and Sahel and West Africa Club/Organisation for Economic Co-operation and Development, Abuja and Paris. Reference number 40121025
Fichtler E, Trouet V, Beeckman H, Coppin P, Worbes M (2004) Climatic signals in tree rings of Burkea africana and Pterocarpus angolensis from semiarid forests in Namibia. Trees 18:442–451
Gärtner H, Schweingruber FH (2013) Microscopic preparation techniques for plant stem analysis. Verlag Dr. Kessel, Remagen, p 78
Gebrekirstos A, Teketay D, Fetene M, Mitlohner R (2006) Adaptation of five co-occurring tree and shrub species to water stress and its implication in restoration of degraded lands. For Ecol Manage 229:259–267
Gebrekirstos A, Mitlohner R, Teketay D, Worbes M (2008) Climate–growth relationships of the dominant tree species from semi-arid savanna woodland in Ethiopia. Trees 22:631–641
Gebrekirstos A, Brauning A, Van Noordwijk M, Mitlohner R (2011) Understanding past, present, and future climate changes from East to West Africa. Agric Innov Sustain Dev 3:77–86
Gebrekirstos A, Bräuning A, Sass-Klassen U, Mbow C (2014) Opportunities and applications of dendrochronology in Africa. Sustain Chall 6:48–53
Gérard J, Louppe D (2011) Afzelia africana Sm. ex Pers. Record from PROTA4U. In: Lemmens RHMJ, Louppe D, Oteng-Amoako AA (eds) PROTA (Plant Resources of Tropical Africa/Ressources végétales de l’Afrique tropicale), Wageningen, Netherlands. http://www.prota4u.org/search.asp. Accessed 15 Nov 2015
Government of Ghana (2014) Climate data for Ejura and Navrongo sub-stations. Ghana Meteorological Service
Hasselquist NJ, Allen MF, Santiago LS (2010) Water relations of evergreen and drought-deciduous trees along a seasonally dry tropical forest chronosequence. Oecologia 164:881–890
Groenendijk P, Sass-Klaassen U, Bongers F, Zuidema PA (2014) Potential of tree-ring analysis in a wet tropical forest: a case study on 22 commercial tree species in Central Africa. For Ecol Manage 323:65–78
IPCC (2013) Fourth Assessment Report: Climate Change 2013 (AR5) Intergovernmental Panel on Climate Change
Jackson PC, Cavelier J, Goldstein G, Meinzer FC, Holbrook NM (1995) Partitioning of water resources among plants of a lowland tropical forest. Oecol 101:197–203
Konate S, Kampmann D (2010) Biodiversity Atlas of West Africa. University of Wurzburg, Wurzburg, pp 60–63
Krepkowski J, Gebrekirstos A, Shibistova O, Brauning A (2013) Stable carbon isotope labeling reveals different carry-over effects between functional types of tropical trees in an Ethiopian mountain forest. New Phytol 199:441–451
Mantyka-pringle CS, Martin TG, Rhodes JR (2012) Interactions between climate and habitat loss effects on biodiversity: a systematic review and meta-analysis. Glob Chang Biol 18:1239–1252
McCarroll D, Loader NJ (2004) Stable isotopes in tree rings. Quat Sci Rev 23:771–801
Meinzer FC, Andrade JL, Goldstein G, Holbrook NM, Cavelier J, Wright SJ (1999) Partitioning of soil water among canopy trees in a seasonally dry tropical forest. Oecol 121:293–301
Niles JH, Allen MF, Santiago LS (2010) Water relations of evergreen and drought-deciduous trees along a seasonally dry tropical forest chronosequence. Oecol 164:881–890
Nka BN, Oudin L, Karambiri H, Paturel JE, Ribstein P (2015) Trends in floods in West Africa: analysis based on 11 catchments in the region. Hydrol Earth Syst Sci 19:4707–4719
Odekunle TO, Eludoyin AO (2008) Sea surface temperature patterns in the Gulf of Guinea: their implications for the spatio-temporal variability of precipitation in West Africa. Int J Climatol 28:1507–1517
Panthou G, Vischel T, Lebel T (2014) Recent trends in the regime of extreme rainfall in the Central Sahel. Int J Climatol 34:3998–4006
Poorter L, Markesteijn L (2008) Seedling traits determine drought-tolerance of tropical tree species. Biotropica 40:321–331
Pucha-Cofrep D, Peters T, Bräuning A (2015) Wet season precipitation during the past century reconstructed from tree-rings of a tropical dry forest in Southern Ecuador. Glob Planet Chang 133:65–78
Rayner NA, Parker DE, Horton EB, Folland CK, Alexander LV, Rowell DP, Kent EC, Kaplan A (2003) Global analyses of sea surface temperature, sea ice, and night marine air temperature since the late nineteenth century. J Geophys Res 108(14):4407
Rinn F (2012) TSAPWin scientific: time series analysis and presentation for dendrochronology and related applications. RINNTECH, Heidelberg
Royal Netherlands Meteorological Institute (2015) KNMI climate explorer. http://climexp.knmi.nl. Accessed 25 Aug 2015
Ruiz-Robleto J, Villar R (2005) Relative growth rate and biomass allocation in ten woody species with different leaf longevity using phylogenetic independent contrasts (PICs). Plant Biol 7:484–494
Sambare O, Bognounou F, Wittig R, Thiombiano A (2011) Woody species composition, diversity and structure of riparian forests of four watercourses types in Burkina Faso. J For Res 22:145–158
Sarmiento G, Monasterio M (1983) Life forms and phenology. In: Bourliere F (ed) Tropical Savannas. Elsevier, Amsterdam, pp 79–108
Scherer-Lorenzen M, Korner C, Schulze ED (eds) (2005) Forest diversity and function: temperate and boreal systems. Springer, Berlin
Schifman LA, Stella JC, Teece M, Volk TA (2012) Plant growth and water stress response of hybrid willow (Salix spp.) among sites and years in central New York. Biomass Bioenergy 36:316–326
Schöngart J, Orthmann B, Hennenberg KJ, Porembski S, Worbes M (2006) Climate-growth relationships of tropical tree species in West Africa and their potential for climate reconstruction. Glob Chang Biol 12:1130–1150
Schweingruber FH (1988) Tree rings. Basics and applications of dendrochronology. Reidel, Dordrecht
Schweingruber FH, Borner A, Schulze ED (eds) (2006) Atlas of woody plant stems. Springer, Berlin
Seghieri J, Do FC, Devineau J, Fournier A (2012) Phenology of woody species along the climatic gradient in West Tropical Africa. In: Zhang X (ed) Phenology and climate change. http://www.intechopen.com/books/phenology-and-climate-change/phenology-of-woody-species-along-the-climatic-gradient-in-west-tropical-africa. Accessed 16 Oct 2015
Stokes MA, Smiley TL (1968) An introduction to tree-ring dating. University of Chicago Press, Chicago
Tomlinson KW, Poorter L, Bongers F, Borghetti F, Jacobs L, van Langevelde F (2014) Relative growth rate variation of evergreen and deciduous savanna tree species is driven by different traits. Ann Bot 114:315–324
Torrence C, Compo GP (1998) A practical guide to wavelet analysis. Bull Am Meteorol Soc 79:61–78
Trouet V, Esper J, Beeckman H (2010) Climate/growth relationships of Brachystegia spiciformis from the Miombo woodland in south central Africa. Dendrochronologia 28:161–171
UNEP-GEF (2012) Volta River Basin, West Africa. http://www.iwmi.cgiar.org/assessment/files_new/research_projects/River_Basin_Development_and_Management/VoltaRiverBasin_Boubacar.pdf. Accessed 6 Sept 2015
van der Sleen JP, Groenendijk P, Vlam M, Anten NPR, Boom A, Bongers F, Pons TL, Terburg G, Zuidema PA (2015) No growth stimulation of tropical trees by 150 years of CO2 fertilization but water-use efficiency increased. Nat Geosci 8:24–28
Volta Basin Authority (2000) Land cover in the Volta Basin area. http://131.220.109.2/geonetwork/srv/en/main.home. Accessed 21 Nov 2014
Wigley TML, Briffa KR, Jones PD (1984) On the average value of correlated time series, with applications in dendroclimatology and hydrometeorology. J Appl Meteorol Climatol 23:201–213
Worbes M (2002) One hundred years of tree ring research in the tropics—a brief history and an outlook to future challenges. Dendrochronologia 20:217–231
Worbes M, Fichtler E (2010) Wood anatomy and tree-ring structure and their importance for tropical dendrochronology. In: Junk WJ, Piedade MFT, Parolin P, Wittmann F, Schöngart J (eds) Central amazonian floodplain forests: ecophysiology, biodiversity and sustainable management. Ecological studies. Springer, Netherlands, pp 329–346
Acknowledgments
The authors wish to express their sincere gratitude to the West African Climate Change and Adapted Landuse programme of the German Federal Ministry for Education and Research for providing financial support to the corresponding author to carry-out this research as part of his postgraduate studies. Thanks to the technical staff, Melanie Viehauser, Iris Burchardt, Roswitha Höfner-Stich and doctoral students in the dendrolab of the Friedrich-Alexander University of Erlangen-Nurnberg, Germany for their support during the laboratory works of the corresponding author in Germany.
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Conflict of interest
The authors declare that they have no conflict of interest.
Additional information
Communicated by R. Matyssek.
Rights and permissions
About this article
Cite this article
Boakye, E.A., Gebrekirstos, A., Hyppolite, D.N. et al. Influence of climatic factors on tree growth in riparian forests in the humid and dry savannas of the Volta basin, Ghana. Trees 30, 1695–1709 (2016). https://doi.org/10.1007/s00468-016-1401-x
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00468-016-1401-x