Your search keyword '"Waite, Catherine E."' showing total 19 results

1. A view from above : using Unmanned Aerial Vehicles (UAVs) to enhance ecological understanding of lianas in tropical forest canopies

Author

Waite, Catherine E.

Subjects

577.3, QK900 Plant ecology

Abstract

Lianas play integral roles in structuring community composition, forest regeneration, the maintenance of species diversity and whole-forest level ecosystem processes in tropical forests. With increasing disturbances to forests worldwide, the relative importance of lianas as players in many areas of forest dynamics is expected to increase, with important ramifications for the global carbon cycle. However, our knowledge of lianas is incomplete and biased: (i) towards the Neotropics; and (ii) against the canopy, yet the canopy is where lianas proliferate most. Research in these areas is hampered by the logistical difficulties of studying lianas; the fact that they are time-consuming to survey, and that it is difficult to quantify what is going on in the canopy. This thesis enhances ecological understanding of lianas in tropical forest tree crowns, focusing on the lesser studied Palaeotropics. The development of a novel method to enable faster, cheaper and more canopy-centred assessment of liana than possible with traditional assessment methods is vital for this. A lightweight unmanned aerial vehicle (UAV) was used to assess liana infestation of tropical forest tree canopies in Sabah, Malaysia. By visually interpreting the images, the UAV-derived liana infestation estimates were compared with those derived from traditional ground methods of liana infestation assessment to determine the validity, strengths and weaknesses of using UAVs as a new method for assessing liana infestation of tree canopies. These data were then used to map and monitor liana load in tree crowns: (i) spatially, to elucidate liana-environmental relationships; and (ii) temporally, to monitor the canopy response, including changes in liana infestation, to El Niño drought. UAV-derived estimates of liana infestation correlated strongly with ground-derived data at individual tree and plot level, and across multiple forest types and spatial resolutions. Furthermore, the UAV surveys improved liana infestation assessment for upper canopy layers and were considerably faster and more cost-efficient than ground-based surveys. Liana infestation was significantly spatially aggregated, with tree canopy height and presence of canopy gaps being the most important variables influencing this. Taller trees were less often and less heavily infested by lianas while liana infestation occurred more often and to greater extents in close proximity to canopy gaps. Temporally, tree-level liana infestation and crown area showed significant increases in the aftermath of the 2015/16 El Niño whereas crown greenness and tree leaf cover showed a significant decrease. Furthermore, liana cover was significantly higher for trees that experienced mortality in the aftermath of the El Niño than for those that did not. This thesis presents a novel UAV-based method of capturing data that can be used to assess liana infestation of tropical forest tree crowns at least as accurately as traditional ground data. This novel method promotes reproducibility of results and quality control, and enables additional variables to be derived from the image data. It is more cost-effective, time-efficient and covers larger geographical extents than traditional ground surveys, enabling more comprehensive monitoring of changes in liana infestation over space and time. By utilising the new UAV method, this thesis presents: (i) the largest and most comprehensive continuous assessment of Palaeotropical tree crown liana infestation, and analysis of environmental variables that may influence this, to date; and (ii) the first study assessing short-term temporal change in liana canopy cover and associated alterations in the forest canopy using UAV image data. Examining how and why lianas are distributed in the forest canopy and how this changes through time may help us to determine what variables could determine increases in lianas with environmental change in the future, with important implications for tropical forest carbon storage and sequestration, and provide a step towards more comprehensive testing of ecological theory in tropical forests.

Published

2020

2. Co-limitation towards lower latitudes shapes global forest diversity gradients

Author

Liang, Jingjing, Gamarra, Javier G. P., Picard, Nicolas, Zhou, Mo, Pijanowski, Bryan, Jacobs, Douglass F., Reich, Peter B., Crowther, Thomas W., Nabuurs, Gert-Jan, de-Miguel, Sergio, Fang, Jingyun, Woodall, Christopher W., Svenning, Jens-Christian, Jucker, Tommaso, Bastin, Jean-Francois, Wiser, Susan K., Slik, Ferry, Hérault, Bruno, Alberti, Giorgio, Keppel, Gunnar, Hengeveld, Geerten M., Ibisch, Pierre L., Silva, Carlos A., ter Steege, Hans, Peri, Pablo L., Coomes, David A., Searle, Eric B., von Gadow, Klaus, Jaroszewicz, Bogdan, Abbasi, Akane O., Abegg, Meinrad, Yao, Yves C. Adou, Aguirre-Gutiérrez, Jesús, Zambrano, Angelica M. Almeyda, Altman, Jan, Alvarez-Dávila, Esteban, Álvarez-González, Juan Gabriel, Alves, Luciana F., Amani, Bienvenu H. K., Amani, Christian A., Ammer, Christian, Ilondea, Bhely Angoboy, Antón-Fernández, Clara, Avitabile, Valerio, Aymard, Gerardo A., Azihou, Akomian F., Baard, Johan A., Baker, Timothy R., Balazy, Radomir, Bastian, Meredith L., Batumike, Rodrigue, Bauters, Marijn, Beeckman, Hans, Benu, Nithanel Mikael Hendrik, Bitariho, Robert, Boeckx, Pascal, Bogaert, Jan, Bongers, Frans, Bouriaud, Olivier, Brancalion, Pedro H. S., Brandl, Susanne, Brearley, Francis Q., Briseno-Reyes, Jaime, Broadbent, Eben N., Bruelheide, Helge, Bulte, Erwin, Catlin, Ann Christine, Cazzolla Gatti, Roberto, César, Ricardo G., Chen, Han Y. H., Chisholm, Chelsea, Cienciala, Emil, Colletta, Gabriel D., Corral-Rivas, José Javier, Cuchietti, Anibal, Cuni-Sanchez, Aida, Dar, Javid A., Dayanandan, Selvadurai, de Haulleville, Thales, Decuyper, Mathieu, Delabye, Sylvain, Derroire, Géraldine, DeVries, Ben, Diisi, John, Do, Tran Van, Dolezal, Jiri, Dourdain, Aurélie, Durrheim, Graham P., Obiang, Nestor Laurier Engone, Ewango, Corneille E. N., Eyre, Teresa J., Fayle, Tom M., Feunang, Lethicia Flavine N., Finér, Leena, Fischer, Markus, Fridman, Jonas, Frizzera, Lorenzo, de Gasper, André L., Gianelle, Damiano, Glick, Henry B., Gonzalez-Elizondo, Maria Socorro, Gorenstein, Lev, Habonayo, Richard, Hardy, Olivier J., Harris, David J., Hector, Andrew, Hemp, Andreas, Herold, Martin, Hillers, Annika, Hubau, Wannes, Ibanez, Thomas, Imai, Nobuo, Imani, Gerard, Jagodzinski, Andrzej M., Janecek, Stepan, Johannsen, Vivian Kvist, Joly, Carlos A., Jumbam, Blaise, Kabelong, Banoho L. P. R., Kahsay, Goytom Abraha, Karminov, Viktor, Kartawinata, Kuswata, Kassi, Justin N., Kearsley, Elizabeth, Kennard, Deborah K., Kepfer-Rojas, Sebastian, Khan, Mohammed Latif, Kigomo, John N., Kim, Hyun Seok, Klauberg, Carine, Klomberg, Yannick, Korjus, Henn, Kothandaraman, Subashree, Kraxner, Florian, Kumar, Amit, Kuswandi, Relawan, Lang, Mait, Lawes, Michael J., Leite, Rodrigo V., Lentner, Geoffrey, Lewis, Simon L., Libalah, Moses B., Lisingo, Janvier, López-Serrano, Pablito Marcelo, Lu, Huicui, Lukina, Natalia V., Lykke, Anne Mette, Maicher, Vincent, Maitner, Brian S., Marcon, Eric, Marshall, Andrew R., Martin, Emanuel H., Martynenko, Olga, Mbayu, Faustin M., Mbuvi, Musingo T. E., Meave, Jorge A., Merow, Cory, Miscicki, Stanislaw, Moreno, Vanessa S., Morera, Albert, Mukul, Sharif A., Müller, Jörg C., Murdjoko, Agustinus, Nava-Miranda, Maria Guadalupe, Ndive, Litonga Elias, Neldner, Victor J., Nevenic, Radovan V., Nforbelie, Louis N., Ngoh, Michael L., N’Guessan, Anny E., Ngugi, Michael R., Ngute, Alain S. K., Njila, Emile Narcisse N., Nyako, Melanie C., Ochuodho, Thomas O., Oleksyn, Jacek, Paquette, Alain, Parfenova, Elena I., Park, Minjee, Parren, Marc, Parthasarathy, Narayanaswamy, Pfautsch, Sebastian, Phillips, Oliver L., Piedade, Maria T. F., Piotto, Daniel, Pollastrini, Martina, Poorter, Lourens, Poulsen, John R., Poulsen, Axel Dalberg, Pretzsch, Hans, Rodeghiero, Mirco, Rolim, Samir G., Rovero, Francesco, Rutishauser, Ervan, Sagheb-Talebi, Khosro, Saikia, Purabi, Sainge, Moses Nsanyi, Salas-Eljatib, Christian, Salis, Antonello, Schall, Peter, Schepaschenko, Dmitry, Scherer-Lorenzen, Michael, Schmid, Bernhard, Schöngart, Jochen, Šebeň, Vladimír, Sellan, Giacomo, Selvi, Federico, Serra-Diaz, Josep M., Sheil, Douglas, Shvidenko, Anatoly Z., Sist, Plinio, Souza, Alexandre F., Stereńczak, Krzysztof J., Sullivan, Martin J. P., Sundarapandian, Somaiah, Svoboda, Miroslav, Swaine, Mike D., Targhetta, Natalia, Tchebakova, Nadja, Trethowan, Liam A., Tropek, Robert, Mukendi, John Tshibamba, Umunay, Peter Mbanda, Usoltsev, Vladimir A., Vaglio Laurin, Gaia, Valentini, Riccardo, Valladares, Fernando, van der Plas, Fons, Vega-Nieva, Daniel José, Verbeeck, Hans, Viana, Helder, Vibrans, Alexander C., Vieira, Simone A., Vleminckx, Jason, Waite, Catherine E., Wang, Hua-Feng, Wasingya, Eric Katembo, Wekesa, Chemuku, Westerlund, Bertil, Wittmann, Florian, Wortel, Verginia, Zawiła-Niedźwiecki, Tomasz, Zhang, Chunyu, Zhao, Xiuhai, Zhu, Jun, Zhu, Xiao, Zhu, Zhi-Xin, Zo-Bi, Irie C., and Hui, Cang

Published

2022

3. Fifteen essential science advances needed for effective restoration of the world's forest landscapes

Author

Marshall, Andrew R., Waite, Catherine E., Pfeifer, Marion, Banin, Lindsay F., Rakotonarivo, Sarobidy, Chomba, Susan, Herbohn, John, Gilmour, Donald A., Brown, Mark, Chazdon, Robin L., Marshall, Andrew R., Waite, Catherine E., Pfeifer, Marion, Banin, Lindsay F., Rakotonarivo, Sarobidy, Chomba, Susan, Herbohn, John, Gilmour, Donald A., Brown, Mark, and Chazdon, Robin L.

Abstract

There has never been a more pressing and opportune time for science and practice to collaborate towards restoration of the world's forests. Multiple uncertainties remain for achieving successful, long-term forest landscape restoration (FLR). In this article, we use expert knowledge and literature review to identify knowledge gaps that need closing to advance restoration practice, as an introduction to a landmark theme issue on FLR and the UN Decade on Ecosystem Restoration. Aligned with an Adaptive Management Cycle for FLR, we identify 15 essential science advances required to facilitate FLR success for nature and people. They highlight that the greatest science challenges lie in the conceptualization, planning and assessment stages of restoration, which require an evidence base for why, where and how to restore, at realistic scales. FLR and underlying sciences are complex, requiring spatially explicit approaches across disciplines and sectors, considering multiple objectives, drivers and trade-offs critical for decision-making and financing. The developing tropics are a priority region, where scientists must work with stakeholders across the Adaptive Management Cycle. Clearly communicated scientific evidence for action at the outset of restoration planning will enable donors, decision makers and implementers to develop informed objectives, realistic targets and processes for accountability. This article paves the way for 19 further articles in this theme issue, with author contributions from across the world. This introduction article is part of the theme issue ‘Understanding forest landscape restoration: reinforcing scientific foundations for the UN Decade on Ecosystem Restoration’.

Published

2023

4. Correction to: ‘A practice-led assessment of landscape restoration potential in a biodiversity hotspot’ (2022) by Wills et al.

Author

Wills, Abigail R., primary, Shirima, Deo D., additional, Villemaire-Côté, Olivier, additional, Platts, Philip J., additional, Knight, Sarah J., additional, Loveridge, Robin, additional, Seki, Hamidu, additional, Waite, Catherine E., additional, Munishi, Pantaleo K. T., additional, Lyatuu, Herman, additional, Bernal, Blanca, additional, Pfeifer, Marion, additional, and Marshall, Andrew R., additional

Published

2022

5. A practice-led assessment of landscape restoration potential in a biodiversity hotspot

Author

Wills, Abigail R., primary, Shirima, Deo D., additional, Villemaire-Côté, Olivier, additional, Platts, Philip J., additional, Knight, Sarah J., additional, Loveridge, Robin, additional, Seki, Hamidu, additional, Waite, Catherine E., additional, Munishi, Pantaleo K. T., additional, Lyatuu, Herman, additional, Bernal, Blanca, additional, Pfeifer, Marion, additional, and Marshall, Andrew R., additional

Published

2022

6. Fifteen essential science advances needed for effective restoration of the world's forest landscapes

Author

Marshall, Andrew R., primary, Waite, Catherine E., additional, Pfeifer, Marion, additional, Banin, Lindsay F., additional, Rakotonarivo, Sarobidy, additional, Chomba, Susan, additional, Herbohn, John, additional, Gilmour, Donald A., additional, Brown, Mark, additional, and Chazdon, Robin L., additional

Published

2022

7. Landscape‐scale drivers of liana load across a Southeast Asian forest canopy differ to the Neotropics

Author

Waite, Catherine E., primary, van der Heijden, Geertje M. F., additional, Field, Richard, additional, Burslem, David F. R. P., additional, Dalling, James W., additional, Nilus, Reuben, additional, Rodríguez‐Ronderos, M. Elizabeth, additional, Marshall, Andrew R., additional, and Boyd, Doreen S., additional

Published

2022

8. Supplementary Material S1 for Marshall, A.R, Waite, C.E., Pfeifer, M., Banin, L., Rakotonarivo, S., Chomba, S., Herbohn, J., Gilmour, D., Brown M., Chazdon, R.L. 2022. from Fifteen essential science advances needed for effective restoration of the world's forest landscapes

Author

Marshall, Andrew R., Waite, Catherine E., Pfeifer, Marion, Banin, Lindsay F., Rakotonarivo, Sarobidy, Chomba, Susan, Herbohn, John, Gilmour, Donald A., Brown, Mark, and Chazdon, Robin L.

Abstract

Supplementary Material detailing the methods for Marshall et al. 2022. Essential science advances for effective restoration of the world's forest landscapes. Philosophical Transactions B.

Published

2022

9. A practice-led assessment of landscape restoration potential in a biodiversity hotspot: Supplementary Material

Author

Wills, Abigail R., Marshall, Andrew R., Shirima, Deo D., Villemaire-Côté, Olivier, Platts, Philip J., Knight, Sarah J., Loveridge, Robin, Seki, Hamidu, Waite, Catherine E., Munishi, Pantaleo K. T., Lyatuu, Herman, Bernal, Blanca, and Pfeifer, Marion

Abstract

Effective restoration planning tools are needed to mitigate global carbon and biodiversity crises. Published spatial assessments of restoration potential are often at large scales or coarse resolutions inappropriate for local action. Using a Tanzanian case study, we introduce a systematic approach to inform landscape restoration planning, estimating spatial variation in cost-effectiveness, based on restoration method, logistics, biomass modelling and uncertainty mapping. We found potential for biomass recovery across 77.7% of a 53 000 km2 region, but with some natural spatial discontinuity in moist forest biomass, that was previously assigned to human causes. Most areas with biomass deficit (80.5%) were restorable through passive or assisted natural regeneration. However, cumulative biomass gains from planting outweighed initially high implementation costs meaning that, where applicable, this method yielded greater long-term returns on investment. Accounting for ecological, funding and other uncertainty, the top 25% consistently cost-effective sites were within protected areas (PA) and/or moderately degraded moist forest and savanna. Agro-ecological mosaics had high biomass deficit but little cost-effective restoration potential. Socio-economic research will be needed to inform action towards environmental and human development goals in these areas. Our results highlight value in long-term landscape restoration investments and separate treatment of savannas and forests. Furthermore, they contradict previously asserted low restoration potential in East Africa, emphasizing the importance of our regional approach for identifying restoration opportunities across the tropics.This article is part of the theme issue ‘Understanding forest landscape restoration: reinforcing scientific foundations for the UN Decade on Ecosystem Restoration’.

Published

2022

10. Making (remote) sense of lianas

Author

Heijden, Geertje M. F., primary, Proctor, Ashley D. C., additional, Calders, Kim, additional, Chandler, Chris J., additional, Field, Richard, additional, Foody, Giles M., additional, Krishna Moorthy, Sruthi M., additional, Schnitzer, Stefan A., additional, Waite, Catherine E., additional, and Boyd, Doreen S., additional

Published

2022

11. Fifteen essential science advances needed for effective restoration of the world's forest landscapes Fifteen essential science advances needed for effective restoration of the world's forest landscapes.

Author

Marshall, Andrew R., Waite, Catherine E., Pfeifer, Marion, Banin, Lindsay F., Rakotonarivo, Sarobidy, Chomba, Susan, Herbohn, John, Gilmour, Donald A., Brown, Mark, and Chazdon, Robin L.

Abstract

There has never been a more pressing and opportune time for science and practice to collaborate towards restoration of theworld's forests.Multiple uncertainties remain for achieving successful, long-term forest landscape restoration (FLR). In this article, we use expert knowledge and literature review to identify knowledge gaps that need closing to advance restoration practice, as an introduction to a landmark theme issue on FLR and the UN Decade on Ecosystem Restoration. Alignedwith anAdaptiveManagementCycle for FLR,we identify 15 essential science advances required to facilitate FLR success for nature and people. They highlight that the greatest science challenges lie in the conceptualization, planning and assessment stages of restoration, which require an evidence base for why, where and how to restore, at realistic scales. FLR and underlying sciences are complex, requiring spatially explicit approaches across disciplines and sectors, considering multiple objectives, drivers and trade-offs critical for decision-making and financing. The developing tropics are a priority region, where scientists must work with stakeholders across the Adaptive Management Cycle. Clearly communicated scientific evidence for action at the outset of restoration planning will enable donors, decision makers and implementers to develop informed objectives, realistic targets and processes for accountability. This article paves the way for 19 further articles in this theme issue, with author contributions from across theworld. [ABSTRACT FROM AUTHOR]

Published

2023

12. Landscape‐scale drivers of liana load across a Southeast Asian forest canopy differ to the Neotropics.

Author

Waite, Catherine E., van der Heijden, Geertje M. F., Field, Richard, Burslem, David F. R. P., Dalling, James W., Nilus, Reuben, Rodríguez‐Ronderos, M. Elizabeth, Marshall, Andrew R., and Boyd, Doreen S.

Subjects

*FOREST canopies, *CARBON sequestration in forests, *LIANAS, *CROWNS (Botany), *FOREST soils, *TREE height

Abstract

Lianas (woody vines) are a key component of tropical forests, known to reduce forest carbon storage and sequestration and to be increasing in abundance. Analysing how and why lianas are distributed in forest canopies at landscape scales will help us determine the mechanisms driving changes in lianas over time. This will improve our understanding of liana ecology and projections of tropical forest carbon storage now and into the future. Despite competing hypotheses on the mechanisms driving spatial patterning of lianas, few studies have integrated multiple tree‐level biotic and abiotic factors in an analytical framework. None have done so in the Palaeotropics, which are biogeographically and evolutionarily distinct from the Neotropics, where most research on lianas has been conducted.We used an unoccupied aerial system (UAS; drone) to assess liana load in 50‐ha of Palaeotropical forest canopy in Southeast Asia. We obtained data on hypothesised drivers of liana spatial distribution in the forest canopy, including disturbance, tree characteristics, soil chemistry and topography, from the UAS, from airborne LiDAR and from ground surveys. We integrated these in a comprehensive analytical framework to extract variables at an individual‐tree level and evaluated the relative strengths of the hypothesised drivers and their ability to predict liana distributions through boosted regression tree (BRT) modelling.Tree height and distance to canopy gaps were the two most important predictors of liana load, with relative contribution values in BRT models of 34.60%–45.39% and 7.93%–10.19%, respectively. Our results suggest that taller trees were less often and less heavily infested by lianas than shorter trees, opposite to Neotropical findings. Lianas also occurred more often, and to a greater extent, in tree crowns close to canopy gaps and to neighbouring trees with lianas in their crown.Synthesis. Despite their known importance and prevalence in tropical forests, lianas are not well understood, particularly in the Palaeotropics. Examining 2428 trees across 50‐ha of Palaeotropical forest canopy in Southeast Asia, we find support for the hypothesis that canopy gaps promote liana infestation. However, we also found that liana presence and load declined with tree height, which is opposite to well‐established Neotropical findings. This suggests a fundamental difference between Neotropical and Southeast Asian forests. Considering that most liana literature has focused on the Neotropics, this highlights the need for additional studies in other biogeographic regions to clarify potential differences and enable us to better understand liana impacts on tropical forest ecology, carbon storage and sequestration. [ABSTRACT FROM AUTHOR]

Published

2023

13. A practice-led assessment of landscape restoration potential in a biodiversity hotspot.

Author

Wills, Abigail R., Shirima, Deo D., Villemaire-Côté, Olivier, Platts, Philip J., Knight, Sarah J., Loveridge, Robin, Seki, Hamidu, Waite, Catherine E., Munishi, Pantaleo K. T., Lyatuu, Herman, Bernal, Blanca, Pfeifer, Marion, and Marshall, Andrew R.

Abstract

Effective restoration planning tools are needed to mitigate global carbon and biodiversity crises. Published spatial assessments of restoration potential are often at large scales or coarse resolutions inappropriate for local action. Using a Tanzanian case study, we introduce a systematic approach to inform landscape restoration planning, estimating spatial variation in costeffectiveness, based on restoration method, logistics, biomass modelling and uncertainty mapping. We found potential for biomass recovery across 77.7% of a 53 000 km² region, but with some natural spatial discontinuity in moist forest biomass, that was previously assigned to human causes. Most areas with biomass deficit (80.5%) were restorable through passive or assisted natural regeneration. However, cumulative biomass gains from planting outweighed initially high implementation costs meaning that, where applicable, this method yielded greater long-term returns on investment. Accounting for ecological, funding and other uncertainty, the top 25% consistently cost-effective sites were within protected areas and/ or moderately degraded moist forest and savanna. Agro-ecological mosaics had high biomass deficit but little cost-effective restoration potential. Socioeconomic research will be needed to inform action towards environmental and human development goals in these areas. Our results highlight value in long-term landscape restoration investments and separate treatment of savannas and forests. Furthermore, they contradict previously asserted low restoration potential in East Africa, emphasizing the importance of our regional approach for identifying restoration opportunities across the tropics. [ABSTRACT FROM AUTHOR]

Published

2023

14. Making (remote) sense of lianas.

Author

van der Heijden, Geertje M. F., Proctor, Ashley D. C., Calders, Kim, Chandler, Chris J., Field, Richard, Foody, Giles M., Krishna Moorthy, Sruthi M., Schnitzer, Stefan A., Waite, Catherine E., and Boyd, Doreen S.

Subjects

LIANAS, FOREST canopies, REMOTE sensing, ECOSYSTEMS, CONDITIONED response, BIOMASS

Abstract

Lianas (woody vines) are abundant and diverse, particularly in tropical ecosystems. Lianas use trees for structural support to reach the forest canopy, often putting leaves above their host tree. Thus they are major parts of many forest canopies. Yet, relatively little is known about distributions of lianas in tropical forest canopies, because studying those canopies is challenging. This knowledge gap is urgent to address because lianas compete strongly with trees, reduce forest carbon uptake and are thought to be increasing, at least in the Neotropics.Lianas can be difficult to study using traditional field methods. Their pliable stems often twist and loop through the understorey, making it difficult to assess their structure and biomass, and the sizes and locations of their crowns. Furthermore, liana stems are commonly omitted from standard field surveys. Remote sensing of lianas can help overcome some of these obstacles and can provide critical insights into liana ecology, but to date there has been no systematic assessment of that contribution.We review progress in studying liana ecology using ground‐based, airborne and space‐borne remote sensing in four key areas: (i) spatial and temporal distributions, (ii) structure and biomass, (iii) responses to environmental conditions and (iv) diversity. This demonstrates the great potential of remote sensing for rapid advances in our knowledge and understanding of liana ecology. We then look ahead, to the possibilities offered by new and future advances. We specifically consider the data requirements, the role of technological advances and the types of methods and experimental designs that should be prioritised.Synthesis. The particular characteristics of the liana growth form make lianas difficult to study by ground‐based field methods. However, remote sensing is well suited to collecting data on lianas. Our review shows that remote sensing is an emerging tool for the study of lianas, and will continue to improve with recent developments in sensor and platform technology. It is surprising, therefore, how little liana ecology research has utilised remote sensing to date—this should rapidly change if urgent knowledge gaps are to be addressed. In short, liana ecology needs remote sensing. [ABSTRACT FROM AUTHOR]

Published

2022

15. A view from above: Unmanned aerial vehicles ( UAV s) provide a new tool for assessing liana infestation in tropical forest canopies

Author

Waite, Catherine E., primary, Heijden, Geertje M. F., additional, Field, Richard, additional, and Boyd, Doreen S., additional

Published

2019

16. A view from above: Unmanned aerial vehicles (UAVs) provide a new tool for assessing liana infestation in tropical forest canopies.

Author

Waite, Catherine E., Heijden, Geertje M. F., Field, Richard, Boyd, Doreen S., and Magrach, Ainhoa

Subjects

*LIANAS, *FOREST canopies, *TROPICAL forests, *DRONE aircraft, *FOREST management

Abstract

Tropical forests store and sequester large quantities of carbon, mitigating climate change. Lianas (woody vines) are important tropical forest components, most conspicuous in the canopy. Lianas reduce forest carbon uptake and their recent increase may, therefore, limit forest carbon storage with global consequences for climate change. Liana infestation of tree crowns is traditionally assessed from the ground, which is labour intensive and difficult, particularly for upper canopy layers.We used a lightweight unmanned aerial vehicle (UAV) to assess liana infestation of tree canopies from above. It was a commercially available quadcopter UAV with an integrated, standard three‐waveband camera to collect aerial image data for 150 ha of tropical forest canopy. By visually interpreting the images, we assessed the degree of liana infestation for 14.15 ha of forest for which ground‐based estimates were collected simultaneously. We compared the UAV liana infestation estimates with those from the ground to determine the validity, strengths, and weaknesses of using UAVs as a new method for assessing liana infestation of tree canopies.Estimates of liana infestation from the UAV correlated strongly with ground‐based surveys at individual tree and plot level, and across multiple forest types and spatial resolutions, improving liana infestation assessment for upper canopy layers. Importantly, UAV‐based surveys, including the image collection, processing, and visual interpretation, were considerably faster and more cost‐efficient than ground‐based surveys.Synthesis and applications. Unmanned aerial vehicle (UAV) image data of tree canopies can be easily captured and used to assess liana infestation at least as accurately as traditional ground data. This novel method promotes reproducibility of results and quality control, and enables additional variables to be derived from the image data. It is more cost‐effective, time‐efficient and covers larger geographical extents than traditional ground surveys, enabling more comprehensive monitoring of changes in liana infestation over space and time. This is important for assessing liana impacts on the global carbon balance, and particularly useful for forest management where knowledge of the location and change in liana infestation can be used for tailored, targeted, and effective management of tropical forests for enhanced carbon sequestration (e.g., REDD+ projects), timber concessions, and forest restoration. Unmanned aerial vehicle (UAV) image data of tree canopies can be easily captured and used to assess liana infestation at least as accurately as traditional ground data. This novel method promotes reproducibility of results and quality control, and enables additional variables to be derived from the image data. It is more cost‐effective, time‐efficient and covers larger geographical extents than traditional ground surveys, enabling more comprehensive monitoring of changes in liana infestation over space and time. This is important for assessing liana impacts on the global carbon balance, and particularly useful for forest management where knowledge of the location and change in liana infestation can be used for tailored, targeted, and effective management of tropical forests for enhanced carbon sequestration (e.g., REDD+ projects), timber concessions, and forest restoration. [ABSTRACT FROM AUTHOR]

Published

2019

17. Correction to: 'A practice-led assessment of landscape restoration potential in a biodiversity hotspot' (2022) by Wills et al.

Author

Wills, Abigail R., Shirima, Deo D., Villemaire-Côté, Olivier, Platts, Philip J., Knight, Sarah J., Loveridge, Robin, Seki, Hamidu, Waite, Catherine E., Munishi, Pantaleo K. T., Lyatuu, Herman, Bernal, Blanca, Pfeifer, Marion, and Marshall, Andrew R.

Subjects

LANDSCAPE assessment

Abstract

A correction for the article "A practice-led assessment of landscape restoration potential in a biodiversity hotspot " is presented, which is published in the November 14, 2022 issue of the periodical.

Published

2023

18. A view from above: using Unmanned Aerial Vehicles (UAVs) to enhance ecological understanding of lianas in tropical forest canopies

Author

Waite, Catherine E. and Waite, Catherine E.

Abstract

Lianas play integral roles in structuring community composition, forest regeneration, the maintenance of species diversity and whole-forest level ecosystem processes in tropical forests. With increasing disturbances to forests worldwide, the relative importance of lianas as players in many areas of forest dynamics is expected to increase, with important ramifications for the global carbon cycle. However, our knowledge of lianas is incomplete and biased: (i) towards the Neotropics; and (ii) against the canopy, yet the canopy is where lianas proliferate most. Research in these areas is hampered by the logistical difficulties of studying lianas; the fact that they are time-consuming to survey, and that it is difficult to quantify what is going on in the canopy. This thesis enhances ecological understanding of lianas in tropical forest tree crowns, focusing on the lesser studied Palaeotropics. The development of a novel method to enable faster, cheaper and more canopy-centred assessment of liana than possible with traditional assessment methods is vital for this. A lightweight unmanned aerial vehicle (UAV) was used to assess liana infestation of tropical forest tree canopies in Sabah, Malaysia. By visually interpreting the images, the UAV-derived liana infestation estimates were compared with those derived from traditional ground methods of liana infestation assessment to determine the validity, strengths and weaknesses of using UAVs as a new method for assessing liana infestation of tree canopies. These data were then used to map and monitor liana load in tree crowns: (i) spatially, to elucidate liana-environmental relationships; and (ii) temporally, to monitor the canopy response, including changes in liana infestation, to El Niño drought. UAV-derived estimates of liana infestation correlated strongly with ground-derived data at individual tree and plot level, and across multiple forest types and spatial resolutions. Furthermore, the UAV surveys improved liana infesta

19. Effects of Climate, Soil, Topography and Disturbance on Liana Prevalence.

Author

Mackintosh EJ, Waite CE, Putz FE, Pfeifer M, Chen C, Lan Z, Brennan S, and Marshall AR

Abstract

Lianas (woody vines and climbing monocots) are increasing in abundance in many tropical forests with uncertain consequences for forest functioning and recovery following disturbances. At a global scale, these increases are likely driven by disturbances and climate change. Yet, our understanding of the environmental variables that drive liana prevalence at regional scales is incomplete and geographically biased towards Latin America. To address this gap, we present a comprehensive study evaluating the combined effects of climate, soil, disturbance and topography on liana prevalence in the Australian Wet Tropics. We established 31 20 × 20 m vegetation plots along an elevation gradient in low disturbance (canopy closure ≥ 75%) and high disturbance (canopy closure ≤ 25%) forest stands. In these plots, all tree and liana (defined as all woody dicot vines and climbing monocots, i.e., rattans) stems ≥ 1 cm DBH were measured and environmental data were collected on climate, soil and topography. Generalised linear models were used with multi-model averaging to quantify the relative effects of the environmental variables on measures of liana prevalence (liana-tree basal area ratio, woody vine basal area and stem density and rattan stem density). Liana prevalence decreased with elevation but increased with disturbance and mean annual precipitation. The increase in the liana-tree ratio with precipitation was more pronounced for highly disturbed sites. Like other tropical regions, disturbance is an important driver of liana prevalence in Australian rainforests and appears to interact with climate to increase liana-tree ratios. The observed increase in liana-tree ratio with precipitation contrasts findings from elsewhere but is confounded by correlated changes in elevation and temperature, which highlights the importance of regional studies. Our findings show that forests with high disturbance and climatic conditions favourable to lianas are where lianas most likely to outcompete trees and impede forest recovery., Competing Interests: The authors declare no conflicts of interest., (© 2024 The Author(s). Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2024