Habitat management to conserve natural enemies of arthropod pests in agriculture DA Landis, SD Wratten, GM Gurr Annual review of entomology 45 (1), 175-201, 2000 | 3952 | 2000 |
Arthropod pest management in organic crops G Zehnder, GM Gurr, S Kühne, MR Wade, SD Wratten, E Wyss Annu. Rev. Entomol. 52 (1), 57-80, 2007 | 842 | 2007 |
Multi-function agricultural biodiversity: pest management and other benefits GM Gurr, SD Wratten, JM Luna Basic and Applied Ecology 4 (2), 107-116, 2003 | 719 | 2003 |
Habitat management to suppress pest populations: progress and prospects GM Gurr, SD Wratten, DA Landis, M You Annual review of entomology 62 (1), 91-109, 2017 | 623 | 2017 |
Crop pests and predators exhibit inconsistent responses to surrounding landscape composition DS Karp, R Chaplin-Kramer, TD Meehan, EA Martin, F DeClerck, H Grab, ... Proceedings of the National Academy of Sciences 115 (33), E7863-E7870, 2018 | 607 | 2018 |
A heterozygous moth genome provides insights into herbivory and detoxification M You, Z Yue, W He, X Yang, G Yang, M Xie, D Zhan, SW Baxter, ... Nature genetics 45 (2), 220-225, 2013 | 590 | 2013 |
Ecological engineering for pest management: advances in habitat manipulation for arthropods G Gurr, SD Wratten, MA Altieri CSIRO publishing, 2004 | 509 | 2004 |
Multi-country evidence that crop diversification promotes ecological intensification of agriculture GM Gurr, Z Lu, X Zheng, H Xu, P Zhu, G Chen, X Yao, J Cheng, Z Zhu, ... Nature plants 2 (3), 1-4, 2016 | 463 | 2016 |
The influence of food onCopidosoma koehleri (hymenoptera: Encyrtidae), and the use of flowering plants as a habitat management tool to enhance biological control of potato moth … LR Baggen, GM Gurr Biological control 11 (1), 9-17, 1998 | 442 | 1998 |
Recent advances in conservation biological control of arthropods by arthropods M Jonsson, SD Wratten, DA Landis, GM Gurr Biological control 45 (2), 172-175, 2008 | 405 | 2008 |
Trichomes of Lycopersicon species and their hybrids: effects on pests and natural enemies AT Simmons, GM Gurr Agricultural and Forest Entomology 7 (4), 265-276, 2005 | 344 | 2005 |
Flowers in tri-trophic systems: mechanisms allowing selective exploitation by insect natural enemies for conservation biological control LR Baggen, GM Gurr, A Meats Proceedings of the 10th international symposium on insect-plant …, 1999 | 336 | 1999 |
Negotiating the" Rackety Bridge"—a dynamic model for aligning supervisory style with research student development GM Gurr Higher Education Research & Development 20 (1), 81-92, 2001 | 301 | 2001 |
Silicon: potential to promote direct and indirect effects on plant defense against arthropod pests in agriculture OL Reynolds, MP Padula, R Zeng, GM Gurr Frontiers in plant science 7, 744, 2016 | 280 | 2016 |
The role of silicon in plant biology: a paradigm shift in research approach A Frew, LA Weston, OL Reynolds, GM Gurr Annals of botany 121 (7), 1265-1273, 2018 | 256 | 2018 |
Increasing floral diversity for selective enhancement of biological control agents: a double-edged sward? B Lavandero, SD Wratten, RK Didham, G Gurr Basic and Applied Ecology 7 (3), 236-243, 2006 | 243 | 2006 |
Biological control: measures of success J Waage Springer Science & Business Media, 2002 | 236 | 2002 |
Mechanisms for flowering plants to benefit arthropod natural enemies of insect pests: Prospects for enhanced use in agriculture ZX Lu, PY Zhu, GM Gurr, XS Zheng, DMY Read, KL Heong, YJ Yang, ... Insect science 21 (1), 1-12, 2014 | 227 | 2014 |
Using selective food plants to maximize biological control of vineyard pests M Begum, GM Gurr, SD Wratten, PR Hedberg, HI Nicol Journal of Applied Ecology 43 (3), 547-554, 2006 | 226 | 2006 |
Success in conservation biological control of arthropods GM Gurr, SD Wratten, P Barbosa Biological control: Measures of success, 105-132, 2000 | 222 | 2000 |