11 results on '"van Weerd M"'
Search Results
2. The Use of Avian Guilds for Monitoring Responses to Human Intervention in Tropical Forests of the Philippines
- Author
-
de Iongh, HH and van Weerd, M
- Published
- 2004
3. Testing a global standard for quantifying species recovery and assessing conservation impact.
- Author
-
Grace, MK, Akçakaya, HR, Bennett, EL, Brooks, TM, Heath, A, Hedges, S, Hilton-Taylor, C, Hoffmann, M, Hochkirch, A, Jenkins, R, Keith, DA, Long, B, Mallon, DP, Meijaard, E, Milner-Gulland, EJ, Rodriguez, JP, Stephenson, PJ, Stuart, SN, Young, RP, Acebes, P, Alfaro-Shigueto, J, Alvarez-Clare, S, Andriantsimanarilafy, RR, Arbetman, M, Azat, C, Bacchetta, G, Badola, R, Barcelos, LMD, Barreiros, JP, Basak, S, Berger, DJ, Bhattacharyya, S, Bino, G, Borges, PAV, Boughton, RK, Brockmann, HJ, Buckley, HL, Burfield, IJ, Burton, J, Camacho-Badani, T, Cano-Alonso, LS, Carmichael, RH, Carrero, C, Carroll, JP, Catsadorakis, G, Chapple, DG, Chapron, G, Chowdhury, GW, Claassens, L, Cogoni, D, Constantine, R, Craig, CA, Cunningham, AA, Dahal, N, Daltry, JC, Das, GC, Dasgupta, N, Davey, A, Davies, K, Develey, P, Elangovan, V, Fairclough, D, Febbraro, MD, Fenu, G, Fernandes, FM, Fernandez, EP, Finucci, B, Földesi, R, Foley, CM, Ford, M, Forstner, MRJ, García, N, Garcia-Sandoval, R, Gardner, PC, Garibay-Orijel, R, Gatan-Balbas, M, Gauto, I, Ghazi, MGU, Godfrey, SS, Gollock, M, González, BA, Grant, TD, Gray, T, Gregory, AJ, van Grunsven, RHA, Gryzenhout, M, Guernsey, NC, Gupta, G, Hagen, C, Hagen, CA, Hall, MB, Hallerman, E, Hare, K, Hart, T, Hartdegen, R, Harvey-Brown, Y, Hatfield, R, Hawke, T, Hermes, C, Hitchmough, R, Hoffmann, PM, Howarth, C, Hudson, MA, Hussain, SA, Huveneers, C, Jacques, H, Jorgensen, D, Katdare, S, Katsis, LKD, Kaul, R, Kaunda-Arara, B, Keith-Diagne, L, Kraus, DT, de Lima, TM, Lindeman, K, Linsky, J, Louis, E, Loy, A, Lughadha, EN, Mangel, JC, Marinari, PE, Martin, GM, Martinelli, G, McGowan, PJK, McInnes, A, Teles Barbosa Mendes, E, Millard, MJ, Mirande, C, Money, D, Monks, JM, Morales, CL, Mumu, NN, Negrao, R, Nguyen, AH, Niloy, MNH, Norbury, GL, Nordmeyer, C, Norris, D, O'Brien, M, Oda, GA, Orsenigo, S, Outerbridge, ME, Pasachnik, S, Pérez-Jiménez, JC, Pike, C, Pilkington, F, Plumb, G, Portela, RDCQ, Prohaska, A, Quintana, MG, Rakotondrasoa, EF, Ranglack, DH, Rankou, H, Rawat, AP, Reardon, JT, Rheingantz, ML, Richter, SC, Rivers, MC, Rogers, LR, da Rosa, P, Rose, P, Royer, E, Ryan, C, de Mitcheson, YJS, Salmon, L, Salvador, CH, Samways, MJ, Sanjuan, T, Souza Dos Santos, A, Sasaki, H, Schutz, E, Scott, HA, Scott, RM, Serena, F, Sharma, SP, Shuey, JA, Silva, CJP, Simaika, JP, Smith, DR, Spaet, JLY, Sultana, S, Talukdar, BK, Tatayah, V, Thomas, P, Tringali, A, Trinh-Dinh, H, Tuboi, C, Usmani, AA, Vasco-Palacios, AM, Vié, J-C, Virens, J, Walker, A, Wallace, B, Waller, LJ, Wang, H, Wearn, OR, van Weerd, M, Weigmann, S, Willcox, D, Woinarski, J, Yong, JWH, Young, S, Grace, MK, Akçakaya, HR, Bennett, EL, Brooks, TM, Heath, A, Hedges, S, Hilton-Taylor, C, Hoffmann, M, Hochkirch, A, Jenkins, R, Keith, DA, Long, B, Mallon, DP, Meijaard, E, Milner-Gulland, EJ, Rodriguez, JP, Stephenson, PJ, Stuart, SN, Young, RP, Acebes, P, Alfaro-Shigueto, J, Alvarez-Clare, S, Andriantsimanarilafy, RR, Arbetman, M, Azat, C, Bacchetta, G, Badola, R, Barcelos, LMD, Barreiros, JP, Basak, S, Berger, DJ, Bhattacharyya, S, Bino, G, Borges, PAV, Boughton, RK, Brockmann, HJ, Buckley, HL, Burfield, IJ, Burton, J, Camacho-Badani, T, Cano-Alonso, LS, Carmichael, RH, Carrero, C, Carroll, JP, Catsadorakis, G, Chapple, DG, Chapron, G, Chowdhury, GW, Claassens, L, Cogoni, D, Constantine, R, Craig, CA, Cunningham, AA, Dahal, N, Daltry, JC, Das, GC, Dasgupta, N, Davey, A, Davies, K, Develey, P, Elangovan, V, Fairclough, D, Febbraro, MD, Fenu, G, Fernandes, FM, Fernandez, EP, Finucci, B, Földesi, R, Foley, CM, Ford, M, Forstner, MRJ, García, N, Garcia-Sandoval, R, Gardner, PC, Garibay-Orijel, R, Gatan-Balbas, M, Gauto, I, Ghazi, MGU, Godfrey, SS, Gollock, M, González, BA, Grant, TD, Gray, T, Gregory, AJ, van Grunsven, RHA, Gryzenhout, M, Guernsey, NC, Gupta, G, Hagen, C, Hagen, CA, Hall, MB, Hallerman, E, Hare, K, Hart, T, Hartdegen, R, Harvey-Brown, Y, Hatfield, R, Hawke, T, Hermes, C, Hitchmough, R, Hoffmann, PM, Howarth, C, Hudson, MA, Hussain, SA, Huveneers, C, Jacques, H, Jorgensen, D, Katdare, S, Katsis, LKD, Kaul, R, Kaunda-Arara, B, Keith-Diagne, L, Kraus, DT, de Lima, TM, Lindeman, K, Linsky, J, Louis, E, Loy, A, Lughadha, EN, Mangel, JC, Marinari, PE, Martin, GM, Martinelli, G, McGowan, PJK, McInnes, A, Teles Barbosa Mendes, E, Millard, MJ, Mirande, C, Money, D, Monks, JM, Morales, CL, Mumu, NN, Negrao, R, Nguyen, AH, Niloy, MNH, Norbury, GL, Nordmeyer, C, Norris, D, O'Brien, M, Oda, GA, Orsenigo, S, Outerbridge, ME, Pasachnik, S, Pérez-Jiménez, JC, Pike, C, Pilkington, F, Plumb, G, Portela, RDCQ, Prohaska, A, Quintana, MG, Rakotondrasoa, EF, Ranglack, DH, Rankou, H, Rawat, AP, Reardon, JT, Rheingantz, ML, Richter, SC, Rivers, MC, Rogers, LR, da Rosa, P, Rose, P, Royer, E, Ryan, C, de Mitcheson, YJS, Salmon, L, Salvador, CH, Samways, MJ, Sanjuan, T, Souza Dos Santos, A, Sasaki, H, Schutz, E, Scott, HA, Scott, RM, Serena, F, Sharma, SP, Shuey, JA, Silva, CJP, Simaika, JP, Smith, DR, Spaet, JLY, Sultana, S, Talukdar, BK, Tatayah, V, Thomas, P, Tringali, A, Trinh-Dinh, H, Tuboi, C, Usmani, AA, Vasco-Palacios, AM, Vié, J-C, Virens, J, Walker, A, Wallace, B, Waller, LJ, Wang, H, Wearn, OR, van Weerd, M, Weigmann, S, Willcox, D, Woinarski, J, Yong, JWH, and Young, S
- Abstract
Recognizing the imperative to evaluate species recovery and conservation impact, in 2012 the International Union for Conservation of Nature (IUCN) called for development of a "Green List of Species" (now the IUCN Green Status of Species). A draft Green Status framework for assessing species' progress toward recovery, published in 2018, proposed 2 separate but interlinked components: a standardized method (i.e., measurement against benchmarks of species' viability, functionality, and preimpact distribution) to determine current species recovery status (herein species recovery score) and application of that method to estimate past and potential future impacts of conservation based on 4 metrics (conservation legacy, conservation dependence, conservation gain, and recovery potential). We tested the framework with 181 species representing diverse taxa, life histories, biomes, and IUCN Red List categories (extinction risk). Based on the observed distribution of species' recovery scores, we propose the following species recovery categories: fully recovered, slightly depleted, moderately depleted, largely depleted, critically depleted, extinct in the wild, and indeterminate. Fifty-nine percent of tested species were considered largely or critically depleted. Although there was a negative relationship between extinction risk and species recovery score, variation was considerable. Some species in lower risk categories were assessed as farther from recovery than those at higher risk. This emphasizes that species recovery is conceptually different from extinction risk and reinforces the utility of the IUCN Green Status of Species to more fully understand species conservation status. Although extinction risk did not predict conservation legacy, conservation dependence, or conservation gain, it was positively correlated with recovery potential. Only 1.7% of tested species were categorized as zero across all 4 of these conservation impact metrics, indicating that conservation has
- Published
- 2021
4. Human-Altered Tree-Based Habitats and Their Value in Conserving Bird and Bat Diversity in Northeast Luzon, The Philippines
- Author
-
Van Weerd, M., primary and Snelder, D. J., additional
- Published
- 2008
- Full Text
- View/download PDF
5. Morphology, Activity Area, and Movement Patterns of the frugivorous monitor lizard Varanus bitatawa
- Author
-
Law, SJ, De Kort, SR, and van Weerd, M
- Abstract
The newly described Varanus bitatawa is a large, frugivorous, monitor lizard endemic to the northern Sierra Madre mountain range in Luzon, Philippines. This study presents the first description of its ecology from tracking and camera trapping. We captured five adult lizards weighing 1.0–5.1 kg with snout-vent lengths (SVL) from 40–66 cm and total lengths from 100–164 cm. Activity areas were non-overlapping with a mean of 12,400 m2 ; males (23,300 m2 ) had larger activity areas than females (5,200 m2 ). Capture and camera trap records indicate that lizards move most frequently between 1000 and 1500. Movements were characterized by straight line distances between trees with a mean distance travelled between trees of 79 m. Mean daily distance covered was 176 m with larger distances covered by males (228 m vs 142 m for females).
- Published
- 2016
6. A longitudinal evaluation of the Communication, Education and Public Awareness (CEPA) campaign for the Philippine crocodileCrocodylus mindorensisin northern Luzon, Philippines
- Author
-
Cureg, M. C., primary, Bagunu, A. M., additional, van Weerd, M., additional, Balbas, M. G., additional, Soler, D., additional, and van der Ploeg, J., additional
- Published
- 2016
- Full Text
- View/download PDF
7. Effects of Different Rearing Strategies and Ages on Levels of Natural Antibodies in Saliva of the Philippine Crocodile
- Author
-
Groffen, J., Parmentier, H.K., van de Ven, W.A.C., and van Weerd, M.
- Subjects
immunosenescence ,senescence ,autoantibodies ,tropical pythons ,immunity ,parasite resistance ,niloticus ,WIAS ,innate ,Adaptation Physiology ,chickens ,crocodylus ,Adaptatiefysiologie - Abstract
The endemic Philippine crocodile (Crocodylus mindorensis) is a relatively small, critically endangered freshwater crocodile. In a head start program, crocodile hatchlings are caught in the wild, reared in captivity, and released back into the wild after two years. The current study aimed to determine optimal rearing strategies of Philippine crocodile hatchlings, including identification of possible diseases during rearing, and studying the effect of ages on natural antibody (NAb) levels. Thirty Philippine crocodiles were divided into two groups, half were reared with a hiding board, and half without the hiding board. Both groups received three different kinds of diets: meat, shrimp, or a combination of both. Saliva samples of the crocodiles were taken three times over a period of three months to test for NAb levels. Saliva samples were also taken from older crocodiles and crocodiles from different locations. NAb titres were compared to sheep red blood cells. Each time saliva samples were taken, a health check was done. The results showed that crocodiles would prefer the hiding board, and neither housing nor diet could affect the level of NAb titres in saliva. A positive correlation was found between NAb titres and body size, weight and age. Wild hatchlings had higher NAb titres than the hatchlings born in captivity, but the difference diminished with ageing. Five different diseases were found
- Published
- 2013
8. Psychological distress in applicants for predictive DNA testing for autosomal dominant, heritable, late onset disorders
- Author
-
Dudokdewit, A. C., Tibben, A., Duivenvoorden, H. J., Frets, P. G., Zoeteweij, M. W., Losekoot, M., Haeringen, A., Niermeijer, M. F., Passchier, J., Dick Lindhout, Meijers-Heijboer, E. J., Lodder, L. N., Trijsburg, R. W., Klijn, J. G. M., Bröcker-Vriends, A., Helderman, A. T. J. M., Hilhorst-Hofstee, Y., Kant, S., Maat-Kievit, J. A., Oosterwijk, J. C., Smagt, J. J., Vegter-Van Vlis, M., Vries-Van Weerd, M. -A C. S., Bakker, E., Cornelisse, C. J., Devilee, P., Tops, C., Vasen, H. F. A., Damage and Repair in Cancer Development and Cancer Treatment (DARE), and Targeted Gynaecologic Oncology (TARGON)
- Subjects
HUNTINGTON DISEASE ,CANCER SUSCEPTIBILITY GENE ,GRADIENT-GEL-ELECTROPHORESIS ,DUTCH PROGRAM ,hereditary neurodegenerative disorders ,HEREDITARY CEREBRAL-HEMORRHAGE ,OVARIAN-CANCER ,FAMILIAL BREAST ,EVENT SCALE ,ALZHEIMERS-DISEASE ,PROTEIN TRUNCATION TEST ,pre-test psychological distress ,predictive DNA testing ,hereditary cancer syndromes - Abstract
In a comparative study on the effects of predictive DNA testing for late onset disorders, pre-test psychological distress was assessed in people at risk for Huntington's disease (HD, n=41), cerebral haemorrhage (HCHWA-D, n=9), breast and ovarian cancer (HBOC, n=24), and polyposis coli (FAP, n=45). Partners, if available, also participated in the study, Distress was measured with the subscales Intrusion and Avoidance of the Impact of Event Scale. People at risk for the neurodegenerative disorders reported more avoidance than those at risk for the cancer syndromes. People at risk for FAP and partners of those at risk for HBOC reported less intrusion than the others at risk and the other partners. Subjects who were more distressed reported more experiences with the disease in close relatives, the disease having a great impact on their lives, having considerations against predictive testing, expecting that being identified as a gene carrier would have adverse effects, and expecting relief after being identified as a non-carrier. Test candidates who expected an increase of personal problems showed higher avoidance, whereas those who could better anticipate future life as a carrier had higher intrusion levels. Generally, subjects with high distress levels are of more concern to the healthcare professional than those with low distress levels. However, high distress may reflect worrying as a mental preparation for the test result, whereas low distress may indicate denial-avoidance behaviour and poor anticipation of the test outcome. In pre-test counselling sessions, this should be acknowledged and addressed.
- Published
- 1997
9. Testing a global standard for quantifying species recovery and assessing conservation impact.
- Author
-
Grace MK, Akçakaya HR, Bennett EL, Brooks TM, Heath A, Hedges S, Hilton-Taylor C, Hoffmann M, Hochkirch A, Jenkins R, Keith DA, Long B, Mallon DP, Meijaard E, Milner-Gulland EJ, Rodriguez JP, Stephenson PJ, Stuart SN, Young RP, Acebes P, Alfaro-Shigueto J, Alvarez-Clare S, Andriantsimanarilafy RR, Arbetman M, Azat C, Bacchetta G, Badola R, Barcelos LMD, Barreiros JP, Basak S, Berger DJ, Bhattacharyya S, Bino G, Borges PAV, Boughton RK, Brockmann HJ, Buckley HL, Burfield IJ, Burton J, Camacho-Badani T, Cano-Alonso LS, Carmichael RH, Carrero C, Carroll JP, Catsadorakis G, Chapple DG, Chapron G, Chowdhury GW, Claassens L, Cogoni D, Constantine R, Craig CA, Cunningham AA, Dahal N, Daltry JC, Das GC, Dasgupta N, Davey A, Davies K, Develey P, Elangovan V, Fairclough D, Febbraro MD, Fenu G, Fernandes FM, Fernandez EP, Finucci B, Földesi R, Foley CM, Ford M, Forstner MRJ, García N, Garcia-Sandoval R, Gardner PC, Garibay-Orijel R, Gatan-Balbas M, Gauto I, Ghazi MGU, Godfrey SS, Gollock M, González BA, Grant TD, Gray T, Gregory AJ, van Grunsven RHA, Gryzenhout M, Guernsey NC, Gupta G, Hagen C, Hagen CA, Hall MB, Hallerman E, Hare K, Hart T, Hartdegen R, Harvey-Brown Y, Hatfield R, Hawke T, Hermes C, Hitchmough R, Hoffmann PM, Howarth C, Hudson MA, Hussain SA, Huveneers C, Jacques H, Jorgensen D, Katdare S, Katsis LKD, Kaul R, Kaunda-Arara B, Keith-Diagne L, Kraus DT, de Lima TM, Lindeman K, Linsky J, Louis E Jr, Loy A, Lughadha EN, Mangel JC, Marinari PE, Martin GM, Martinelli G, McGowan PJK, McInnes A, Teles Barbosa Mendes E, Millard MJ, Mirande C, Money D, Monks JM, Morales CL, Mumu NN, Negrao R, Nguyen AH, Niloy MNH, Norbury GL, Nordmeyer C, Norris D, O'Brien M, Oda GA, Orsenigo S, Outerbridge ME, Pasachnik S, Pérez-Jiménez JC, Pike C, Pilkington F, Plumb G, Portela RCQ, Prohaska A, Quintana MG, Rakotondrasoa EF, Ranglack DH, Rankou H, Rawat AP, Reardon JT, Rheingantz ML, Richter SC, Rivers MC, Rogers LR, da Rosa P, Rose P, Royer E, Ryan C, de Mitcheson YJS, Salmon L, Salvador CH, Samways MJ, Sanjuan T, Souza Dos Santos A, Sasaki H, Schutz E, Scott HA, Scott RM, Serena F, Sharma SP, Shuey JA, Silva CJP, Simaika JP, Smith DR, Spaet JLY, Sultana S, Talukdar BK, Tatayah V, Thomas P, Tringali A, Trinh-Dinh H, Tuboi C, Usmani AA, Vasco-Palacios AM, Vié JC, Virens J, Walker A, Wallace B, Waller LJ, Wang H, Wearn OR, van Weerd M, Weigmann S, Willcox D, Woinarski J, Yong JWH, and Young S
- Subjects
- Animals, Biodiversity, Conservation of Natural Resources, Ecosystem, Risk, Endangered Species, Extinction, Biological
- Abstract
Recognizing the imperative to evaluate species recovery and conservation impact, in 2012 the International Union for Conservation of Nature (IUCN) called for development of a "Green List of Species" (now the IUCN Green Status of Species). A draft Green Status framework for assessing species' progress toward recovery, published in 2018, proposed 2 separate but interlinked components: a standardized method (i.e., measurement against benchmarks of species' viability, functionality, and preimpact distribution) to determine current species recovery status (herein species recovery score) and application of that method to estimate past and potential future impacts of conservation based on 4 metrics (conservation legacy, conservation dependence, conservation gain, and recovery potential). We tested the framework with 181 species representing diverse taxa, life histories, biomes, and IUCN Red List categories (extinction risk). Based on the observed distribution of species' recovery scores, we propose the following species recovery categories: fully recovered, slightly depleted, moderately depleted, largely depleted, critically depleted, extinct in the wild, and indeterminate. Fifty-nine percent of tested species were considered largely or critically depleted. Although there was a negative relationship between extinction risk and species recovery score, variation was considerable. Some species in lower risk categories were assessed as farther from recovery than those at higher risk. This emphasizes that species recovery is conceptually different from extinction risk and reinforces the utility of the IUCN Green Status of Species to more fully understand species conservation status. Although extinction risk did not predict conservation legacy, conservation dependence, or conservation gain, it was positively correlated with recovery potential. Only 1.7% of tested species were categorized as zero across all 4 of these conservation impact metrics, indicating that conservation has, or will, play a role in improving or maintaining species status for the vast majority of these species. Based on our results, we devised an updated assessment framework that introduces the option of using a dynamic baseline to assess future impacts of conservation over the short term to avoid misleading results which were generated in a small number of cases, and redefines short term as 10 years to better align with conservation planning. These changes are reflected in the IUCN Green Status of Species Standard., (© 2021 The Authors. Conservation Biology published by Wiley Periodicals LLC on behalf of Society for Conservation Biology.)
- Published
- 2021
- Full Text
- View/download PDF
10. Averting biodiversity collapse in tropical forest protected areas.
- Author
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Laurance WF, Useche DC, Rendeiro J, Kalka M, Bradshaw CJ, Sloan SP, Laurance SG, Campbell M, Abernethy K, Alvarez P, Arroyo-Rodriguez V, Ashton P, Benítez-Malvido J, Blom A, Bobo KS, Cannon CH, Cao M, Carroll R, Chapman C, Coates R, Cords M, Danielsen F, De Dijn B, Dinerstein E, Donnelly MA, Edwards D, Edwards F, Farwig N, Fashing P, Forget PM, Foster M, Gale G, Harris D, Harrison R, Hart J, Karpanty S, Kress WJ, Krishnaswamy J, Logsdon W, Lovett J, Magnusson W, Maisels F, Marshall AR, McClearn D, Mudappa D, Nielsen MR, Pearson R, Pitman N, van der Ploeg J, Plumptre A, Poulsen J, Quesada M, Rainey H, Robinson D, Roetgers C, Rovero F, Scatena F, Schulze C, Sheil D, Struhsaker T, Terborgh J, Thomas D, Timm R, Urbina-Cardona JN, Vasudevan K, Wright SJ, Arias-G JC, Arroyo L, Ashton M, Auzel P, Babaasa D, Babweteera F, Baker P, Banki O, Bass M, Bila-Isia I, Blake S, Brockelman W, Brokaw N, Brühl CA, Bunyavejchewin S, Chao JT, Chave J, Chellam R, Clark CJ, Clavijo J, Congdon R, Corlett R, Dattaraja HS, Dave C, Davies G, Beisiegel Bde M, da Silva Rde N, Di Fiore A, Diesmos A, Dirzo R, Doran-Sheehy D, Eaton M, Emmons L, Estrada A, Ewango C, Fedigan L, Feer F, Fruth B, Willis JG, Goodale U, Goodman S, Guix JC, Guthiga P, Haber W, Hamer K, Herbinger I, Hill J, Huang Z, Sun IF, Ickes K, Itoh A, Ivanauskas N, Jackes B, Janovec J, Janzen D, Jiangming M, Jin C, Jones T, Justiniano H, Kalko E, Kasangaki A, Killeen T, King HB, Klop E, Knott C, Koné I, Kudavidanage E, Ribeiro JL, Lattke J, Laval R, Lawton R, Leal M, Leighton M, Lentino M, Leonel C, Lindsell J, Ling-Ling L, Linsenmair KE, Losos E, Lugo A, Lwanga J, Mack AL, Martins M, McGraw WS, McNab R, Montag L, Thompson JM, Nabe-Nielsen J, Nakagawa M, Nepal S, Norconk M, Novotny V, O'Donnell S, Opiang M, Ouboter P, Parker K, Parthasarathy N, Pisciotta K, Prawiradilaga D, Pringle C, Rajathurai S, Reichard U, Reinartz G, Renton K, Reynolds G, Reynolds V, Riley E, Rödel MO, Rothman J, Round P, Sakai S, Sanaiotti T, Savini T, Schaab G, Seidensticker J, Siaka A, Silman MR, Smith TB, de Almeida SS, Sodhi N, Stanford C, Stewart K, Stokes E, Stoner KE, Sukumar R, Surbeck M, Tobler M, Tscharntke T, Turkalo A, Umapathy G, van Weerd M, Rivera JV, Venkataraman M, Venn L, Verea C, de Castilho CV, Waltert M, Wang B, Watts D, Weber W, West P, Whitacre D, Whitney K, Wilkie D, Williams S, Wright DD, Wright P, Xiankai L, Yonzon P, and Zamzani F
- Subjects
- Agriculture statistics & numerical data, Animals, Data Collection, Ecology statistics & numerical data, Environmental Pollution adverse effects, Environmental Pollution statistics & numerical data, Fires statistics & numerical data, Forestry statistics & numerical data, Interviews as Topic, Mining statistics & numerical data, Population Growth, Rain, Reproducibility of Results, Research Personnel, Surveys and Questionnaires, Temperature, Biodiversity, Conservation of Natural Resources statistics & numerical data, Endangered Species statistics & numerical data, Trees physiology, Tropical Climate
- Abstract
The rapid disruption of tropical forests probably imperils global biodiversity more than any other contemporary phenomenon. With deforestation advancing quickly, protected areas are increasingly becoming final refuges for threatened species and natural ecosystem processes. However, many protected areas in the tropics are themselves vulnerable to human encroachment and other environmental stresses. As pressures mount, it is vital to know whether existing reserves can sustain their biodiversity. A critical constraint in addressing this question has been that data describing a broad array of biodiversity groups have been unavailable for a sufficiently large and representative sample of reserves. Here we present a uniquely comprehensive data set on changes over the past 20 to 30 years in 31 functional groups of species and 21 potential drivers of environmental change, for 60 protected areas stratified across the world’s major tropical regions. Our analysis reveals great variation in reserve ‘health’: about half of all reserves have been effective or performed passably, but the rest are experiencing an erosion of biodiversity that is often alarmingly widespread taxonomically and functionally. Habitat disruption, hunting and forest-product exploitation were the strongest predictors of declining reserve health. Crucially, environmental changes immediately outside reserves seemed nearly as important as those inside in determining their ecological fate, with changes inside reserves strongly mirroring those occurring around them. These findings suggest that tropical protected areas are often intimately linked ecologically to their surrounding habitats, and that a failure to stem broad-scale loss and degradation of such habitats could sharply increase the likelihood of serious biodiversity declines.
- Published
- 2012
- Full Text
- View/download PDF
11. A spectacular new Philippine monitor lizard reveals a hidden biogeographic boundary and a novel flagship species for conservation.
- Author
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Welton LJ, Siler CD, Bennett D, Diesmos A, Duya MR, Dugay R, Rico EL, Van Weerd M, and Brown RM
- Subjects
- Animals, Geography, Phylogeny, Conservation of Natural Resources, Lizards anatomy & histology, Lizards classification
- Abstract
As humans continue to explore the last uncharted regions of the planet, discoveries of previously unknown species of large vertebrates have become infrequent. Here, we report on the discovery of a spectacular new species of giant, secretive, frugivorous, forest monitor lizard (Genus: Varanus) from the forests of the northern Philippines. Using data from morphology and mitochondrial and nuclear DNA sequences, we demonstrate the taxonomic distinctiveness of this new 2 m long species and provide insight into its historical biogeography and systematic affinities. Our molecular phylogenetic analyses indicate that the new species is closely related to Varanus olivaceus (from southern Luzon and nearby islands), but it differs from this and other varanids with respect to characteristics of scalation, colour pattern, body size, anatomy of the reproductive organs and genetic divergence. The new species appears to be restricted to forests of the central and northern Sierra Madre mountain range; it is separated from the range of V. olivaceus by a more than 150 km stretch that includes at least three low-elevation river valley barriers to dispersal. This discovery identifies a seldom-perceived biogeographic boundary and emphasizes the need for continued biodiversity research in the megadiverse conservation hotspot of the Philippines. It is anticipated that the new species will serve as an important flagship species for conservation efforts aimed at preserving the remaining forests of northern Luzon.
- Published
- 2010
- Full Text
- View/download PDF
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