Rarely Studied Orchid Species in Southeastern Peru Are Excellent Indicators of Overall Biodiversity in the Area

The only truly sustainable solution to orchid conservation over time is to keep orchids in an intact ecosystem. When preserving animals, one can easily envision zoological parks as permanent “arks”, keeping large animal species alive for perpetuity in a wholly ex situ setting. Orchids do not follow the same pattern because of their complex interaction with symbiotic fungi and specialized pollinators. Even if they were available, no amount of human resources and funding could hope to maintain the degree of biological complexity seen in orchid relationships in nature.

-- Eric Christenson, 2003. Machu Picchu: Orchids. PROFONAPE, Lima, Peru.

PROJECT SUMMARY

There are an estimated 30,000-35,000 species of orchids worldwide. Latin America is home to over 20,000 species, with Peru accounting for 10% of this number based only on minimal botanical activity over the last 30 years. Based on a review of available data of orchid collections, there have been surprisingly few collections in the Andes-Amazon region of southeastern Peru. The discovery and study of wild orchids in Peru has been hampered by inaccessibility, either to the habitat or to the collections, data, and images from the field. There is a wealth of ecological information to be discovered about the mysterious orchid family.

In addition to the charm and beauty of orchids, there are strong scientific indications that this family has much to offer in guiding humankind to understanding our effects on different tropical forest types. Because of their complex biology, orchids are excellent indicators of overall biodiversity in an area (Christenson, 2003). Because orchids are highly evolved with their pollinators and require a specific relationship with fungus to germinate, they are intimately intertwined with the ecology of their habitat. To conserve orchids we must understand and protect their environment. Many orchids are epiphytes, meaning they live on other plants: on tree trunks, branches, and sometimes leaves. The precarious life of an epiphyte makes orchids especially sensitive to climate change. “In particular, they are good ecological indicators for the increasing temperatures and aridity associated with widescale deforestation in the tropics. Diminishing orchid populations often signal long-term deleterious environmental change.” (Christenson, 2003). The study of wild orchids has many conservation and scientific benefits, including the use of the orchid family as a base-line indicator of ecosystem health. To achieve conservation and scientific benefits, we need to conduct a comprehensive orchid inventory and monitoring program that will document orchid ecology, biology, and natural history. We need to use this information to design orchid conservation plans for the intact regions of habitat where orchids still thrive.

Conservation of the cloud forest region of the Kosñipata Valley on the eastern slopes of the tropical Andes in Peru is important for orchid conservation for several reasons.

The conservation value of the area is high. This valley is the buffer zone for Manu National Park, a World Heritage site, widely known as one of the most important protected areas on the planet. The upper elevation forests are known to have many endemic species found only in this life zone.
The sheer amount of specialized cloud forest species is immense. Many of the species occur within a narrow altitudinal range of a few hundred meters. The orchid diversity in this region is very high, though few in-depth studies have been done to provide the scientific evidence.
The altitudinal transect that connects the lowlands with the highlands can act as a biological escape corridor for species that will need to migrate in response to accelerating climate change.
Cloud forest habitat is undergoing rapid conversion to agricultural and pastoral land. Comparatively, the Kosñipata Valley is relatively pristine and undisturbed making it an ideal study and conservation site.

OBJECTIVES

Our primary goal is to assess our state of knowledge of the orchid diversity of the Andes-Amazon region of southeastern Peru, a region from Cusco to Puerto Maldonado, Peru. This goal will be reached by accomplishing the following work objectives:

1. Explore orchid diversity of the Andes-Amazon region of southeastern Peru through botanical investigations in the field and herbarium

2. Produce large set of high-resolution digital images of orchid species of the region, and their habitats, habits, and morphology

3. Identify and describe the orchid species collected in the region

4. Compile a comprehensive checklist of the orchids species of the region

5. Collect and analyze quantitative data about the natural history, population biology, and phenology of orchids at selected locations along the Andes-Amazon altitudinal gradient

6. Develop and publish web pages about the orchid diversity of the Andes-Amazon region, including species pages with information and images about each orchid species in the region

7. Prepare and submit at least one manuscript about results of the project, including a comprehensive species checklist and recommendations for the conservation and continued exploration of the orchid diversity of the Andes-Amazon region

8. Submit basic orchid field guides for one Andean (Wayqecha) and one Amazonian (Los Amigos) research site, with species diagnoses, brief descriptions, images, and keys

We have completed the above objectives and are currently working to analyze the data. Below we present increments of the project. Please stay tuned for further updates!

PRELIMINARY RESULTS

Miguel Chocce, a student from San Marcos University who works in the herbarium at the San Marcos Museum, has been working closely with several members of the AABP team since 2003 and is now one of the core members of the team. He was stationed between the field and museum. Although he has been known to collect anything with chlorophyll, his favorite group of plant is the orchid family. Miguel has made hundreds of collections in the Andes-Amazon region and has taken images of most of them. During 2003-2004, Miguel documented nearly 100 orchid species in the forests around the Los Amigos Research Center. He continued his orchid work at Los Amigos carrying out field research as part of the AABP team.

AABP team members, Janovec, Neill, and Chocce, and the Amazon Conservation Association (ACA) conducted a brief (three days) reconnaissance investigation of orchid diversity at the Wayqecha Cloud Forest property in Jan 2003 and then again in March 2004. At that time, in less than 10 total days of collecting, we collected over 110 species of orchids, from the size of 5 cm to a length of 4 m, in a small patch of undisturbed cloud forest. Data from the March 2004 expedition are being combined with data from orchid studies in 2003 through work by Miguel Chocce in the San Marcos Herbarium in Lima, Peru.

Eric Christenson, a world-renowned orchidologist specializing in the orchids of Peru, identified the specimens we collected. Based on his identifications, he indicated that possibly two of our collections might be species new to science. We predict there could be more than 500 orchid species in the area. To discover and document them requires a consistent inventory and monitoring program.

In 2005, TCU Graduate student Rebecca Repasky began a year long study of the orchid diversity located within the Wayqecha Cloud forest. Rebecca collected data for 10 days each month in various habitats of this region. Through her preliminary research, it was believed that more than 200 orchids would be found within this area. By the end of her year long study, she had documented 239 orchid species.

We are currently conducting basic statistical analysis of the diversity, abundance, and density of orchid species through quantitative inventory at five locations over the project period. This will involve similarity indices, multivariate data analysis, ecological ordination, and regression analysis against environmental and ecological data. We will produce time series analysis on the orchid phenology dataset and attempt to correlate phenological patterns with environmental data (i.e., climate, temperature) being collected in the region.

Preparation and Submission of Manuscript

We will prepare and submit a manuscript about the orchids of the Andes-Amazon region. The manuscript will include a checklist of orchid species to be compiled through this project from existing sources of information and new discoveries made through field expeditions and herbarium study. The introduction to the article will provide pertinent information about the history and status of botanical exploration in the region, using the orchid family as an indicator group. Information and collections for each species will be provided, along with maps of their distributions. Along with the article, we will also publish color images. This manuscript will serve as the foundation for production of orchid field guides.

Publication of Field Guides to Orchid Diversity of Andean and Amazonian Research Sites

One of the major set of products from this project will include two field guides to orchid diversity. One of the guides will be focused on the Los Amigos Conservation Area in the Amazonian lowlands of Madre de Dios, Peru. The second guide will be focused on the Wayqecha Cloud Forest Research Station in the Andean highlands in the Department of Cusco, Peru. This will increase interest in the rich botanical diversity and endemism of the Andes-Amazon region.

REFERENCES

Balick, M. 1999. Good Botanical Practices. In: D. Eskinazi, M. Blumenthal, N. Farnsworth, and C. Riggins (eds.). Botanical Medicine: Efficacy, Quality Assurance, and Regulation. pp. 221-125. Mary Ann Liebert, Inc., Larchmont, NY.

Christenson, Eric. 2003. Machu Picchu: Orchids. PROFONAPE, Lima, Peru