Skip to main content
SpringerLink
Log in

Modified Whittaker Plots as an Assessment and Monitoring Tool for Vegetation in a Lowland Tropical Rainforest

  • Published:
Environmental Monitoring and Assessment Aims and scope Submit manuscript

Abstract

Resource exploitation in lowland tropical forests is increasingand causing loss of biodiversity. Effective evaluation and management of the impacts of development on tropical forests requires appropriate assessment and monitoring tools. We proposethe use of 0.1-ha multi-scale, modified Whittaker plots (MWPs) to assess and monitor vegetation in lowland tropical rainforests.We established MWPs at 4 sites to: (1) describe and comparecomposition and structure of the sites using MWPs, (2) compare these results to those of 1-ha permanent vegetation plots (BDPs),and (3) evaluate the ability of MWPs to detect changes in populations (statistical power). We recorded more than 400 species at each site. Species composition among the sites was distinctive, while mean abundance and basal area was similar. Comparisons between MWPs and BDPs show that they record similarspecies composition and abundance and that both perform equallywell at detecting rare species. However, MWPs tend to record morespecies, and power analysis studies show that MWPs were more effective at detecting changes in the mean number of species of trees ≥10 cm in diameter at breast height (dbh) and in herbaceous plants. Ten MWPs were sufficient to detect a change of 11% in the mean number of herb species, and they were able to detect a 14% change in the mean number of species of trees ≥10 cm dbh. The value of MWPs for assessment and monitoringis discussed, along with recommendations for improving the sampling design to increase power.

This is a preview of subscription content, log in via an institution to check access.

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

Similar content being viewed by others

References

  • Alonso, A. and Dallmeier, F.: 1998, Biodiversity Assessment of the Lower Urubamba Region, Peru: Cashiriari-3 Well Site and the Camisea and Urubamba Rivers, SI/MAB Series #2, Smithsonian Institution/MAB Biodiversity Program, Washington, DC.

  • Alonso, A. and Dallmeier, F.: 1999, Biodiversity Assessment of the Lower Urubamba Region, Peru: Pagoreni Well Site: Assessment and Training, SI/MAB Series #3, Smithsonian Institution/MAB Biodiversity Program, Washington, DC.

  • Alonso, A., Mistry, S., Dallmeier, F., Comiskey, J., Udvardy, S., Nunez, P., Nauray, W., de la Colina, R., Acurio, L., Beltran, H. and Salas, A.: 1999, ‘Vegetation: Biodiversity Assessment at the Pagoreni Well Site', in A. Alonso and F. Dallmeier (eds), Biodiversity Assessment and Monitoring of the Lower Urubamba Region, Peru: Pagoreni Well Site: Assessment and Training, SI/MAB Series #3, Smithsonian Institution/MAB Biodiversity Program, Washington, DC.

  • Ashton, P. S.: 1998, ‘A Global Network of Plots for Understanding Tree Species Diversity, in Tropical Forests', in F. Dallmeier and J. A. Comiskey (eds), Forest Biodiversity Research, Monitoring and Modeling: Conceptual Background and Old World Case Studies, The Parthenon Publishing Group, Paris.

    Google Scholar 

  • Campbell, D. G., Daly, D. C., Prance, G. T. and Maciel, U. N.: 1986, ‘Quantitative ecological inventory of terra firme and varzea tropical forest on the Rio Xingu, Brazilian Amazon', Brittonia 38(4), 369–393.

    Google Scholar 

  • Clark, D. A. and Clark, D. B.: 1992, ‘Life history diversity of canopy and emergent trees in a Neotropical rain forest', Ecolog. Monog. 62, 315–344.

    Google Scholar 

  • Clark, D. B. and Clark, D. A.: 2000, ‘Landscape-scale variation in forest structure and biomass in a tropical rain forest', Forest Ecol. Manag. 137, 185–198.

    Google Scholar 

  • Clinebell, R. R., Phillips, O. L., Gentry, A. H., Stark, N. and Zuuring, N.: 1995, ‘Prediction of Neotropical tree and liana species richness from soil and climatic data', Biodiv. Conser. 4, 56–90.

    Google Scholar 

  • Cohen, J.: 1977, Statistical Power Analysis for the Behavioral Sciences, Academic Press, New York.

    Google Scholar 

  • Comiskey, J. A., Campbell, P., Alonso, A., Mistry, S., Dallmeier, F., Nuñez, P., Beltran, H., Baldeon, S., Nauray, W., De la Colina, R., Acurio, L. and Udvardy, S.: 2001, ‘Vegetation Assessment of the Lower Urubamba Region, Peru', in F. Dallmeier, A. Alonso and P. Campbell (eds), Biodiversity of the Lower Urubamba Region, Peru, SIMAB Series 7, Smithsonian Institution/MAB Biodiversity Program, Washington, DC.

  • Condit, R.: 1995, ‘Research in large, long-term tropical forest plots', Trends Ecol. Evol. 10(1), 18–22.

    Google Scholar 

  • Condit, R., Hubbell, S. P. and Foster, R. B.: 1995, ‘Mortality rates of 205 Neotropical tree and shrub species and the impact of a severe drought', Ecol. Monog. 65(4), 419–439.

    Google Scholar 

  • Condit, R., Hubbell, S. P., Lafrankie, J. V., Sukumar, R., Manokaran, N., Foster, R. B. and Ashton, P. S.: 1996, ‘Species-area and species-individual relationships for tropical trees: A comparison of three 50 ha plots', J. Ecol. 84, 549–562.

    Google Scholar 

  • Dallal, G. E.: 1990, ‘PC-SIZE Consultant: A program for sample size determination', Amer. Stat. 44, 243.

    Google Scholar 

  • Dallmeier, F.: 1992, ‘Long-term monitoring of biological diversity in tropical forest areas: Methods for establishment and inventory of permanent plots', MAB Digest 11, UNESCO, Paris.

    Google Scholar 

  • Dallmeier, F. and Alonso, A.: 1997, Biodiversity Assessment of the Lower Urubamba Region, Peru: San Martin-3 and Cashiriari-2 Well Sites, SI/MAB Series #1, Smithsonian Institution/MAB Biodiversity Program, Washington, DC.

  • Dallmeier, F. and Comiskey, J. A.: 1996, ‘From the Forest to the User: A Methodology Update', in D. E. Wilson and A. Sandoval (eds), Manu: The Biodiversity of Southeastern Peru, Smithsonian Institution Press, Washington DC.

    Google Scholar 

  • Dallmeier, F. and Comiskey, J. A.: 1998, ‘Forest Biodiversity Assessment, Monitoring, and Evaluation for Adaptive Management', in F. Dallmeier and J. A. Comiskey (eds), Forest Biodiversity Research, Monitoring and Modeling: Conceptual Background and Old World Case Studies, Man and the Biosphere Series, Vol. 20, UNESCO, Paris, and Parthenon Publishing Group, New York.

    Google Scholar 

  • Elzinga, C. L., Salzer, D. W. and Willoughby, J. W.: 1998, Measuring and Monitoring Plant Populations, United States Bureau of Land Management, Denver.

    Google Scholar 

  • FAO: 1997, State of the World's Forests 1997, Rome.

  • Gentry, A. H.: 1982, ‘Patterns of Neotropical plant species diversity', Evol. Biol. 15, 1–84.

    Google Scholar 

  • Gentry, A. H.: 1988a, ‘Changes in plant community diversity and floristic composition on environmental and geographical gradients', Ann. Miss. Bot. Garden 75, 1–34.

    Google Scholar 

  • Gentry, A. H.: 1988b, ‘Tree species richness in upper Amazonian forests', Proc. Nat. Acad. Sci., U.S.A. 85, 156–159.

    Google Scholar 

  • Gentry, A. H.: 1990, ‘Introduction', in A. H. Gentry (ed.), Four Neotropical Forests, Yale University Press, New Haven and London.

    Google Scholar 

  • Gentry, A. H.: 1995, ‘Diversity and Floristic Composition of Neotropical Dry Forests', in S. H. Bullock, H. A. Mooney and E. Medina (eds), Seasonally Dry Tropical Forests, Cambridge University Press, New York.

    Google Scholar 

  • Gerrodette, T.: 1987, ‘A power analysis for detecting trends', Ecology 68(5), 1364–1372.

    Google Scholar 

  • Greig-Smith, P.: 1964, Quantitative Plant Ecology, Butterworths Publishing, Washington, DC.

    Google Scholar 

  • Hellawell, J. M.: 1991, ‘Development of a Rationale for Monitoring', in F. B. Goldsmith (ed.), Monitoring for Conservation and Ecology, Conservation Biology Series 3, Chapman and Hall, London.

    Google Scholar 

  • Hill, M. O. and Gauch, H. G.: 1980, ‘Detrended correspondence analysis, an improved ordination technique', Vegetatio 42, 47–58.

    Google Scholar 

  • Holling, C. S. (ed.): 1978, Adaptive Environmental Assessment and Management, John Wiley & Sons, New York.

    Google Scholar 

  • Hubbell, S. P.: 1998, ‘The Maintenance of Diversity in a Neotropical Tree Community: Conceptual Issues, Current Evidence, and Challenges Ahead', in F. Dallmeier and J. A. Comiskey (eds), Forest Biodiversity Research, Monitoring and Modeling: Conceptual Background and Old World Case Studies, Man and the Biosphere Series, Vol. 20, UNESCO, Paris, and Parthenon Publishing Group, New York.

    Google Scholar 

  • Hubbell, S. P. and Foster, R. B.: 1983, ‘Diversity of Canopy Trees in a Neotropical Forest and Implications for Conservation', in S. L. Sutton, T. C. Whitmore and A. C. Chadwick (eds), Tropical Rain Forests: Ecology and Management, Blackwell Scientific Publications, Oxford.

    Google Scholar 

  • Hubbell, S. P. and Foster, R. B.: 1986, ‘Commonness and Rarity in a Neotropical Forest: Implications for Tropical Tree Conservation', in M. E. Soulé (ed.), Conservation Biology: The Science of Scarcity and Diversity, Sinauer Associates, Sunderland, Massachusetts.

    Google Scholar 

  • Hubbell, S. P. and Foster, R. B.: 1987, ‘The Spatial Context of Regeneration in a Neotropical Forest', in A. J. Gray, M. J. Crawley and P. J. Edwards (eds), Colonization, Succession and Stability, Blackwell Scientific Publications, Oxford.

    Google Scholar 

  • Hubbell, S. P. and Foster, R. B.: 1990, ‘Structure, Dynamics, and Equilibrium Status of Old-growth Forest on Barro Colorado Island', in A. H. Gentry (ed.), Four Neotropical Forests, Yale University Press, New Haven and London.

    Google Scholar 

  • Hubbell, S. P. and Foster, R. B.: 1992, ‘Short-term dynamics of a Neotropical forest:Why ecological research matters to tropical conservation and management', Oikos 63(1), 48–61.

    Google Scholar 

  • Kent, M. and Coker, P.: 1994, Vegetation Description and Analysis: A Practical Approach, John Wiley & Sons, Chichester, England.

    Google Scholar 

  • Korning, J., Thomsen, K. and Ollgaard, B.: 1991, ‘Composition and structure of a species rich Amazonian rain forest obtained by two different sample methods', Nord. J. Bot. 11(1), 103–110.

    Google Scholar 

  • Lovejoy, T. E.: 1997, ‘Biodiversity: What Is It?', in M. L. Reaka-Kudla, D. E. Wilson and W. O. Wilson (eds), Biodiversity II: Understanding and Protecting Our Biological Resources, Joseph Henry Press, Washington, DC.

    Google Scholar 

  • Myers, N.: 1986, ‘Tropical Deforestation and a Mega-extinctions Spasm', in M. Soule (ed.), Conservation Biology: The Science and Scarcity of Diversity, Sinauer Associates, Inc., Sunderland, Massachusetts.

    Google Scholar 

  • Osenberg, C.W., Schmitt, R. J., Holbrook, S. J., Abu-Saba, K. E. and Flegal, A. R.: 1994, ‘Detection of environmental impacts: Natural variability, effect size and power analysis', Ecol. Appl. 4(1), 16–30.

    Google Scholar 

  • Peterman, R. M.: 1990, ‘Statistical power analysis can improve fisheries research and management', Can. J. Aq. Sci. 47, 2–15.

    Google Scholar 

  • Phillips and Miller (eds): Global Patterns of Plant Diversity: Alwyn H. Gentry's Forest Transect Data Set, Missouri Botanical Gardens, St. Louis, Missouri (in press).

  • Podani, J., Czaran, T. and Bartha, S.: 1993, ‘Pattern, area and diversity: The importance of spatial scale in species assemblages', Abstr. Bot. 17(1-2), 37–51.

    Google Scholar 

  • Prance, G. T.: 1989, ‘American Tropical Forests', in H. Lieth and M. J. A. Werger (eds), Tropical Rain Forest Ecosystems: Biogeographical and Ecological Studies, Elsevier, Amsterdam.

    Google Scholar 

  • Shmida, A.: 1984, ‘Whittaker's plant diversity sampling method', Israel J. Bot. 33, 41–46.

    Google Scholar 

  • Spellerberg, I. F.: 1991, Monitoring Ecological Change, Cambridge University Press, Cambridge.

    Google Scholar 

  • Spellerberg, I. F.: 1992, Evaluation and Assessment for Conservation, Chapman and Hall, London.

    Google Scholar 

  • Steidl, R. J., Hayes, J. P. and Schauber, E.: 1997, ‘Statistical power analysis in wildlife research', J. Wildlife Manage. 61(2), 270–279.

    Google Scholar 

  • Stohlgren, T. J.: 1995, ‘Planning Long-term Vegetation Studies at Landscape Scales', in T. M. Powell and J. H. Steele (eds), Ecological Time Series, Chapman and Hall, New York.

    Google Scholar 

  • Stohlgren, T. J., Falkner, M. B. and Schell, L. D.: 1995, ‘A modified-Whittaker nested vegetation sampling method', Vegetatio 117, 113–121.

    Google Scholar 

  • Stohlgren, T. J., Kalkhan, M. A., Chong, G. W. and Schell, L. D.: 1997, ‘Rapid assessment of plant diversity patterns: A methodology for landscapes', Environ. Monit. Assess. 48, 25–43.

    Google Scholar 

  • Terborgh, J. and Andresen, E.: 1998, ‘The composition of Amazonian forests: Patterns at local and regional scales', J. Trop. Ecol. 14, 645–664.

    Google Scholar 

  • Toft, C. A. and Shea, P. J.: 1983, ‘Detecting community-wide pattern: Estimating power strengthens statistical inference', The Amer. Natur. 122(5), 618–625.

    Google Scholar 

  • Valencia, R., Balslev, H., Paz, G. and Mino, C.: 1994, ‘High tree alpha-diversity in Amazonian Ecuador', Biodiv. Conser. 3, 21–28.

    Google Scholar 

  • Van Strien, A. J., Van de Pavert, R., Moss, D., Yates, T. J., Van Swaay, C. A. M. and Vos, P.: 1997, ‘The statistical power of two butterfly monitoring schemes to detect trends', J. Appl. Ecol. 34, 817–828.

    Google Scholar 

  • Whitmore, T. C.: 1997, ‘Tropical Forest Disturbance, Disappearance and Species Loss', in W. F. Laurance and R. O. Bierregaard (eds), Tropical Forest Remnants: Ecology, Management and Conservation of Fragmented Communities, The University of Chicago Press, Chicago.

    Google Scholar 

  • Zielinski, W. J. and Stauffer, H. B.: 1996, ‘Monitoring Martes populations in California: Survey design and power analysis', Ecol. Appl. 6(4), 1254–1267.

    Google Scholar 

Download references

Author information

Authors and Affiliations

  1. Smithsonian Institution Monitoring and Assessment of Biodiversity Program, Conservational Research Center, National Zoological Park, 1100 Jefferson Drive, SW, Suite 3123, Washington, DC, 20560-0705, U.S.A

    Patrick Campbell, James Comiskey, Alfonso Alonso, Francisco Dallmeier & Shana Udvardy

  2. Departmento de Botanica, Facultad de Ciencias Biologicas, Universidad San Antonio Abad del Cusco, Cusco, Peru

    Percy Nuñez, William Nauray, Rafael De La Colina & Lucero Acurio

  3. Museo de Historia Natural, Universidad Nacional Mayor de San Marcos, Avenida Arenales 1256, Jesus Maria, Lima, Apartado 14–0434, Lima, 14, Peru

    Hamilton Beltran & Severo Baldeon

Authors
  1. Patrick Campbell
    View author publications

    You can also search for this author in PubMed Google Scholar

  2. James Comiskey
    View author publications

    You can also search for this author in PubMed Google Scholar

  3. Alfonso Alonso
    View author publications

    You can also search for this author in PubMed Google Scholar

  4. Francisco Dallmeier
    View author publications

    You can also search for this author in PubMed Google Scholar

  5. Percy Nuñez
    View author publications

    You can also search for this author in PubMed Google Scholar

  6. Hamilton Beltran
    View author publications

    You can also search for this author in PubMed Google Scholar

  7. Severo Baldeon
    View author publications

    You can also search for this author in PubMed Google Scholar

  8. William Nauray
    View author publications

    You can also search for this author in PubMed Google Scholar

  9. Rafael De La Colina
    View author publications

    You can also search for this author in PubMed Google Scholar

  10. Lucero Acurio
    View author publications

    You can also search for this author in PubMed Google Scholar

  11. Shana Udvardy
    View author publications

    You can also search for this author in PubMed Google Scholar

Rights and permissions

Reprints and permissions

About this article

Cite this article

Campbell, P., Comiskey, J., Alonso, A. et al. Modified Whittaker Plots as an Assessment and Monitoring Tool for Vegetation in a Lowland Tropical Rainforest. Environ Monit Assess 76, 19–41 (2002). https://doi.org/10.1023/A:1015264720284

Download citation

  • Issue Date:

  • DOI: https://doi.org/10.1023/A:1015264720284

Search

Navigation