{"doc_desc":{"title":"HND_2005_2006_ENF_v01_M_v01_A_ESS","idno":"DDI_HND_2005_2006_ENF_v01_M_v01_A_ESS_FAO","producers":[{"name":"Statistics Division","abbr":"ESS","affiliation":"Food and Agriculture Organization of the United Nations","role":"Metadata producer"}]},"study_desc":{"title_statement":{"idno":"HND_2005_2006_ENF_v01_M_v01_A_ESS","title":"Honduras Forest and Tree Inventory 2005-2006","translated_title":"Inventario de Bosques y \u00c1rboles Honduras 2005-2006"},"authoring_entity":[{"name":"Department of Forest Management and Development, Forest Conservation Institute (Departamento de Manejo y Desarrollo Forestal, Instituto de Conservaci\u00f3n Forestal)","affiliation":" Forest Conservation Institute (ICF, Instituto de Conservaci\u00f2n Forestal) - Rio Platano Biosphere Reserve Project (Proyecto Reserva de la Biosfera Rio Platano)"}],"production_statement":{"producers":[{"name":"Food and Agriculture Organization of the United Nations","abbr":"FAO","affiliation":"United Nations"},{"name":"United States Forest Service","abbr":"USFS","role":"Contribution: Rio Platano Biosphere Reserve Project (Proyecto Reserva de la Biosfera Rio Platano)"},{"name":"State Forestry Administration-Honduran Forestry Development Corporation (Administraci\u00f3n Forestal del Estado-Corporaci\u00f3n Hondure\u00f1a de Desarrollo Forestal)","role":"Contribution:  Forest Conservation Institute (ICF, Instituto de Conservaci\u00f2n Forestal) - Rio Platano Biosphere Reserve Project (Proyecto Reserva de la Biosfera Rio Platano)"}],"funding_agencies":[{"name":"Food and Agriculture Organization of the United Nations","abbr":"FAO"},{"name":"United States Forest Service","abbr":"USFS"},{"name":"State Forestry Administration-Honduran Forestry Development Corporation (Administraci\u00f3n Forestal del Estado-Corporaci\u00f3n Hondure\u00f1a de Desarrollo Forestal)"}]},"distribution_statement":{"contact":[{"name":"Betina Salgado","affiliation":" Forest Conservation Institute (ICF, Instituto de Conservaci\u00f2n Forestal)","email":"bsalgado@icf.gob.hn"},{"name":"Department of Forest Management and Development, Forest Conservation Institute (Departamento de Manejo y Desarrollo Forestal, Instituto de Conservaci\u00f3n Forestal)","affiliation":" Forest Conservation Institute (ICF, Instituto de Conservaci\u00f2n Forestal)","email":"manejoforestal@icf.gob.hn"}]},"series_statement":{"series_name":"Forest resource survey"},"study_info":{"keywords":[{"keyword":"Forest"},{"keyword":"Carbon"},{"keyword":"Tree Biomass"},{"keyword":"Tree Volume"},{"keyword":"Deadwood"},{"keyword":"Land Use"},{"keyword":"Canopy Cover"},{"keyword":"Tree Biodiversity"},{"keyword":"Forest Production"},{"keyword":"Land Cover"},{"keyword":"Forest Fire Evidence"},{"keyword":"Non-Timber Forest Products"},{"keyword":"Forest Pests"}],"topics":[{"topic":"Biomass Stock Measurement"},{"topic":"Non-Timber Forest Products"},{"topic":"Biodiversity"}],"abstract":"The National Forestry Assessment process has created a methodology and a baseline that contributes to the organization and generation of strategic information. The objective of the National Forestry Assessment is to establish a system for evaluating forests at the national level to generate information that supports sustainable forest management with the following features:\n\nA. For the first time, an information survey is proposed with a multipurpose and integrated focus that improves the quality and quantity of information.\nB. Forests are considered within a mosaic of other productive uses, allowing their integration into the territorial planning and improving sustainable forest management.\nC. Considers measuring trees outside the forest, as of paramount importance for the planning of agroforestry systems.\nD. Gives values of the criteria and indicators for the evaluation of the implementation of forest policies and laws.\nE. Inventory data can be used to update forest cover and current land use maps, potential use capacity maps, land use conflict, socioeconomic maps, etc.\nF. It allows the formulation of economic and geographical projections and models of the whole country.\n\nThe field data collection was carried out using a multidisciplinary and comprehensive methodology, in which the information was analyzed to assess:\ni) the dynamics of the agricultural frontier; \nii) the sustainable management of natural forests;\niii) the strengthening of forest productivity;\niv) the promotion of investment and management of plantations and agroforestry systems;\nv) the integration of environmental services into sustainable forest management;\nvi) the conservation of biodiversity in forest ecosystems; and\nvii) the economic contribution of forests to society.","coll_dates":[{"start":"2005-11","end":"2006-05"}],"nation":[{"name":"Honduras","abbreviation":"HND"}],"geog_coverage":"National coverage","analysis_unit":"Fields\/plots","universe":"Tree population throughout the country, inside and outside the forests.","data_kind":"Sample survey data [ssd]","notes":"The main criteria defined for the NFI drive its scope. These are:\n\n1. Forest cover and areas outside forest\n2. Productive functions of forest ecosystems\n3. Health and vitality of forests and non-tree ecosystems\n4. Status of forest plantations and agroforestry systems\n5. Maintenance and enhancement of the multiple social, economic and cultural benefits of forest ecosystems\n6. Contribution of forest ecosystems to environmental services\n7. Biological diversity of forest ecosystems\n\nFor each, indicators were defined  associated with the measured variables."},"method":{"data_collection":{"sampling_procedure":"The NFI involves the collection of biophysical, socioeconomic, and environmental data from forests and non-forest areas. Across the total area of the country (112 490 km\u00b2), a systematic grid of 339 primary sampling units was traced every 10 minutes in latitude and 10 minutes in longitude, and primary sampling units were distributed in a chessboard pattern.\nThe statistical design was a systematic cluster sampling, non-stratified (probability proportional to size). Each primary sampling unit (cluster) was composed of four secondary sampling units (plots), following FAO's National Forest Monitoring and Assessment (NFMA) plot design system (see attached document \"Resultados del Inventario Nacional de Bosques y \u00c1rboles 2005-2006\"). Plots were rectangular (20 x 250 m in shape, corresponding to 0.5 ha), distributed along the sides of a 500 x 500 m square. The first plot was located in the southwest corner with northwards direction. The second was in the northwest corner with an eastward direction. The two remaining plots were in the northeast and southeast corner following southward and westward directions, respectively.\t\nEach plot had a nested structure with three types of subplots and three measuring points systematically distributed, where each subplot size configuration depended on the resource to measure. In the whole plot, all trees greater than or equal to 20 cm Diameter at Breast Height (DBH) or those greater than or equal to 10 cm DBH were measured whether they were in forest or in non-forest, respectively. The first nested subplots (10 x 20 m: 200 m\u00b2) were used to measure, only if the land use was forest, trees with DBH greater than or equal to 10 cm and lower than 20 cm. The second level subplots were circular (radius = 3.99 m: 50 m\u00b2) and measured trees, only in forest, with DBH lower than 10 cm and total height greater than or equal to 1.3 m. Finally there were 3 soil and litter measuring locations, both in forest and non-forest in 0.5 x 0.5 m squares. Three line intercept transects per Secondary Sampling Unit (SSU) for dead wood greater than or equal to 10 cm and 3 for deadwood lower than 10 cm in diameter had lengths of 20 m and 10 each, respectively.","sampling_deviation":"Missing data resulted primarily from elevated costs and access constraints.","coll_mode":["Field Measurement [field]"],"sources":[[]],"coll_situation":"Several capacity building exercises were done. First, two workshops were developed, with the participation of technical specialists in different disciplines, belonging to public institutions and development projects financed with international funds. In the first workshop, the methodology was presented and the criteria, indicators, variables and verifiers were analyzed, (see \"Manual para el Levantamiento de Campo\" in attached documentation)  that would be evaluated during the execution of the NFI. In the second workshop, the terms and definitions of the Land Use Classification (CUT, Clasificaci\u00f3n de Uso de la Tierra) and forest types or classes were reconciled.\n\nSubsequently, five training workshops were planned for national consultants and contracted field supervisors, as well as State Forestry Administration - Honduran Forestry Development Corporation (AFE-COHDEFOR, Administraci\u00f3n Forestal del Estado - Corporaci\u00f3n Hondure\u00f1a de Desarrollo Forestal) personnel. A total of 85 people nationwide were trained in the use of the survey methodology, of which 50 are independent technicians, 30 technicians from AFE-COHDEFOR, one municipal technician and four students. 18 technicians also received training in a 3-day workshop on information processing and analysis.\n\nThe field technical teams were composed of at least four people: one team leader (responsible forester), one assistant and two operators. At least one of the members was required to have experience for the common identification of the trees. In addition, at least one of the operators had to be from the area, to facilitate the location and request for permits.\n\nTechnical personnel of the Technical Unit for National Forest Evaluation (UTENF, Unidad T\u00e9cnica de Evaluaci\u00f3n Nacional Forestal) traveled to various regions of the country to provide field guidance during the first survey of each Sampling Unit (UM, Unidad de Muestreo) to previously selected consultants. This monitoring would serve, in addition to clarifying doubts to the consultants, supervising in general the activities, measurements and data records in the forms, and evaluating their technical criteria, mainly in terms of classification of land use and forest types. Because not all regions and consultants started at the same time, this activity lasted from November 2005 to May 2006, covering a total of 32 Management Units (MUs) (20 percent). In parallel, from December 2005 to July 2006, supervisions were carried out on 17 MUs (10 percent) selected for doubts that arose during the cabinet reviews or randomly chosen to verify the work carried out. In the first case, the information of the parcels that presented bias was verified in the field and in the second the parcels to visit were previously selected in the office. Back at the work headquarters, a report of the tour was prepared specifying the problems encountered, which were communicated to the consultants for their correction.\n\nFor the review and approval of the field information received at the central headquarters, the following quality control mechanisms were used:\n\n1. Preparation of a control sheet to record the entry of the information received.\n2. Once the information had been registered and considered received, a UTENF technician was responsible for verifying that the data were consistent across the report, the field forms, and the database. Once the information was reviewed, the field forms were scanned in order to have a backup copy in case of loss, since the originals were sent back to the consultants to make the requested corrections.\n3. Initially, if the information received presented inconsistencies, the documentation was returned to the consultant for correction, for the first or second time. As this practice became common, it was decided that, once most of a consultant's MUs had been completed, the consultants would travel to the UTENF headquarters in Tegucigalpa. There, together with the supervisors, they would review and enter all the information into the database to ensure it was fully verified and reliable. After this the information was accepted and filled.\n4. Finally, each sampling unit was digitized and geo-referenced, in order to perform geographic analysis. \n\nFurther information can be found in the attached field manual in the Downloads section.","weight":"Sample weights were determined according to area expansion factors (with respect to a reference of 2 ha total area per Primary Sampling Unit (PSU)). Each PSU consists of four Secondary Sampling Units (SSUs). Hence they are given as:\n\n- Weight of whole plot land use and measured trees and stumps in forest with DBH greater than or equal to 20 cm or trees and stumps with DBH greater than or equal to 10 cm in areas outside the forest: 2 ha\/(0.5 ha x 4 SSU\/PSU) = 1\n- Weight of trees in forest with DBH between 10 and 20 cm: 2 ha\/(0.02 ha x 12 subplots\/PSU) = 8.33 \n- Weight of regeneration, trees with DBH < 10 cm and height greater than 1.3 meters: 2 ha\/(0.005 ha x 12 subplots\/PSU) = 33.33\n- Weight of litter in PSU: 2 ha\/(0.000025 ha x 12 subplots\/PSU) = 6666.67\n- Weight of downed dead wood greater than or equal to 10 cm in diameter:  estimated using the line-intersect sampling formula, with 12 transects of 20 m established per PSU.\n- Weight of downed dead wood < 10 cm in diameter:  estimated using the line-intersect sampling formula, with 12 transects of 10 m established per PSU.","cleaning_operations":"Several capacity building exercises were done. First, two workshops were developed, with the participation of technical specialists in different disciplines, belonging to public institutions and development projects financed with international funds. In the first workshop, the methodology was presented and the criteria, indicators, variables and verifiers were analyzed, (see \"Manual para el Levantamiento de Campo\" in attached documentation)  that would be evaluated during the execution of the NFI. In the second workshop, the terms and definitions of the Land Use Classification (CUT, Clasificaci\u00f3n de Uso de la Tierra) and forest types or classes were reconciled.\n\nSubsequently, five training workshops were planned for national consultants and contracted field supervisors, as well as State Forestry Administration \u2013 Honduran Forestry Development Corporation (AFE-COHDEFOR, Administraci\u00f3n Forestal del Estado \u2013 Corporaci\u00f3n Hondure\u00f1a de Desarrollo Forestal) personnel. A total of 85 people nationwide were trained in the use of the survey methodology, of which 50 are independent technicians, 30 technicians from AFE-COHDEFOR, one municipal technician and four students. 18 technicians also received training in a 3-day workshop on information processing and analysis.\n\nThe field technical teams were composed of at least four people: one team leader (responsible forester), one assistant and two operators. At least one of the members was required to have experience for the common identification of the trees. In addition, at least one of the operators had to be from the area, to facilitate the location and request for permits.\n\nTechnical personnel of the Technical Unit for National Forest Evaluation (UTENF, Unidad T\u00e9cnica de Evaluaci\u00f3n Nacional Forestal) traveled to various regions of the country to provide field guidance during the first survey of each Sampling Unit (UM, Unidad de Muestreo) to previously selected consultants. This monitoring would serve, in addition to clarifying doubts to the consultants, supervising in general the activities, measurements and data records in the forms, and evaluating their technical criteria, mainly in terms of classification of land use and forest types. Because not all regions and consultants started at the same time, this activity lasted from November 2005 to May 2006, covering a total of 32 Management Units (MUs) (20 percent). In parallel, from December 2005 to July 2006, supervisions were carried out on 17 MUs (10 percent) selected for doubts that arose during the cabinet reviews or randomly chosen to verify the work carried out. In the first case, the information of the parcels that presented bias was verified in the field and in the second the parcels to visit were previously selected in the office. Back at the work headquarters, a report of the tour was prepared specifying the problems encountered, which were communicated to the consultants for their correction.\n\nFor the review and approval of the field information received at the central headquarters, the following quality control mechanisms were used:\n\n1. Preparation of a control sheet to record the entry of the information received.\n2. Once the information had been registered and considered received, a UTENF technician was responsible for verifying that the data were consistent across the report, the field forms, and the database. Once the information was reviewed, the field forms were scanned in order to have a backup copy in case of loss, since the originals were sent back to the consultants to make the requested corrections.\n3. Initially, if the information received presented inconsistencies, the documentation was returned to the consultant for correction, for the first or second time. As this practice became common, it was decided that, once most of a consultant\u2019s MUs had been completed, the consultants would travel to the UTENF headquarters in Tegucigalpa. There, together with the supervisors, they would review and enter all the information into the database to ensure it was fully verified and reliable. After this the information was accepted and filled.\n4. Finally, each sampling unit was digitized and geo-referenced, in order to perform geographic analysis. \n\nFurther information can be found in the attached field manual in the Downloads section."},"analysis_info":{"response_rate":"Originally a systematic square grid with 339 PSUs had been envisioned. However, because of budget constraints, the grid was halved in intensity, totaling 170 PSUs. Out of the original 170 PSUs designed to be sampled, 156 were finally selected. 13 PSUs in the area of the Reserva Nacional del R\u00edo Pl\u00e1tano (RBRP) and R\u00edo Patuca and one outside were not enumerated due to elevated costs in the first case and lack of access permissions. However, 25 more were added later to cover a total of 181 PSUs. First, two PSUs in the Rio Platano area that belonged to the grid of 170 PSUs were substituted for another two from the more intense, grid of 339 PSUs located immediately to the west. Then, the other 11 Rio Platano PSUs from the grid of 170 PSUs were finally enumerated, all 13 thanks to extra funds available. Second, the PSU missed initially as it lacked access permission was finally granted a permit. Then, another 11 PSUs belonging to the intense grid of 339 PSUs were added, located mostly in the dense forest areas within Atl\u00e1ntida and Olancho departments. Because of the misalignments between the original 339 and the reduced 170 PSU design and the final number of 181 plots measured, it is difficult to define a robust response rate. Nevertheless, analyses can consider a full response rate with respect to the grid of 170 PSUs (with a likely small bias).","sampling_error_estimates":"All the estimates included the estimation error, which is the limit of the estimator with a confidence level of 95 percent (alpha\/2) expressed as a percentage of the mean.\nDue to the budget constraints that triggered a halving of the originally planned 339 PSUs, errors in the analysis were high and it was not clear in the results document how the addition and substitution of new 25 sample plots would play a role since these new plots likely impose biases in the design. Data are provided here without responsibility whatsoever on the error estimation procedures developed by the user.\n\nResults considered sampling error at a 95 percent confidence level."}},"data_access":{"dataset_use":{"conf_dec":[{"txt":"Due to Honduras' Transparency and Access to Public Information Act (Article 3 #7) and for security reasons and property disputes prominent in the country, all personal and contact information regarding ownership of the land where the survey plots are located is completely anonymized.\n\nThe users shall not take any action with the purpose of identifying any individual entity (i.e. person, household, enterprise, etc.) in the micro dataset(s). If such a disclosure is made inadvertently, no use will be made of the information, and it will be reported immediately to FAO.","required":"yes"}],"cit_req":"\u00a9 HONDURAS NFI 2005\/2006, AFE-COHDEFOR","conditions":"Micro datasets disseminated by FAO shall only be allowed for research and statistical purposes. Any user which requests access working for a commercial company will not be granted access to any micro dataset regardless of their specified purpose. Users requesting access to any datasets must agree to the following minimal conditions:\n- The micro dataset will only be used for statistical and\/or research purposes; \n- Any results derived from the micro dataset will be used solely for reporting aggregated information, and not for any specific individual entities or data subjects; \n- The users shall not take any action with the purpose of identifying any individual entity (i.e. person, household, enterprise, etc.) in the micro dataset(s). If such a disclosure is made inadvertently, no use will be made of the information, and it will be reported immediately to FAO;\n- The micro dataset cannot be re-disseminated by users or shared with anyone other than the individuals that are granted access to the micro dataset by FAO.","disclaimer":"The user of the data acknowledges that the original collector of the data, the authorized distributor of the data, and the relevant funding agency bear no responsibility for use of the data or for interpretations or inferences based upon such uses."}}},"schematype":"survey"}