03935naa a2200673 a 450000100080000000500110000800800410001902200140006002400250007410000230009924501180012226000090024052022160024965000310246565000130249665000120250965000120252165000120253365000110254565000150255665000110257165000180258265000160260065000280261665000270264465000250267165000150269665000130271165000090272465000230273365000160275665000110277265000120278365000190279565000100281465000160282465000270284065000130286765000230288065000130290365000100291665000200292665000120294665000110295865300140296965300160298365300140299965300170301365300110303070000190304170000190306070000220307970000190310170000210312070000190314170000210316070000180318177300620319921466232022-09-20       2022    bl uuuu     u00u1 u    #d  a1526-498x7 a10.1002/ps.68802DOI1 aOLIVEIRA, A. A. S.  aSpatio-temporal distribution of Anthonomus grandis grandis Boh. in tropical cotton fields.h[electronic resource]  c2022  aThe boll weevil, Anthonomus grandis grandis Boheman (Coleoptera: Curculionidae), is considered to be the most harmful cotton, Gossypium hirsutum L., pest throughout subtropical, and tropical regions of the western hemisphere.1,2 Boll weevil damages cotton by feeding upon and laying eggs inside its reproductive structures, where hatched larvae feed and pupate,3,4 causing abscission or reduction of fiber quality,3,5,6 and economic losses of up to US$74 million per year.7 Boll weevil chemical control interventions are based on economic thresholds obtained by sampling the plants and for adult boll weevils captured in pheromone-baited traps.3,8,9 In order to develop an accurate monitoring and management program, estimates of population density are essential.10,11 Biotic and abiotic factors affect dynamics and within-field distribution (aggregated, random or uniform patterns) of insect populations.10,12 Knowing a pest's distribution within a field can help to: (1) develop site-specific sampling and control efforts; (2) predict pest movement; (3) improve insecticide-resistance management; (4) conserve biological control agents by precision targeting sprays for the infested areas; and (5) reduce the economic, social and environmental costs associated with pest control.10,11,13 The spatial distribution of boll weevils has been investigated using mean?variance relationships4,14 without considering within-field spatial density distribution, or has been based on pheromone-baited trap captures.15 The most accurate approach is the use of geostatistics because the position of the samples in space is accounted for.16 Recent work reported that geostatistics is of particular interest for pest management because it allows inferences about the minimum inter-sample distance needed to obtain independent estimations and indicates patterns of distribution and colonization of an organism, all of which are crucial for the development of effective sampling programs.11,13 The purpose of this study was to investigate the spatial dynamics of A. grandis grandis on cotton by determining within-field distribution of adults and infested reproductive structures (having feeding and/or oviposition punctures).  aAnthonomus grandis grandis  aBroccoli  aCabbage  aCarrots  aCassava  aCotton  aEntomology  aGarlic  aGeostatistics  aPlant pests  aSunflower seed products  aSunflower seed protein  aTropical agriculture  aVegetables  aAlgodão  aAlho  aAnthonomus Grandis  aBatata Doce  aBicudo  aCenoura  aClima Tropical  aCouve  aEntomologia  aEstatística Agrícola  aGirassol  aGossypium Hirsutum  aMandioca  aPeste  aPraga de Planta  aRepolho  aTomate  aBrócolis  aHortaliças  aSunflower  aSweet potato  aTomato1 aARAÚJO, T. A.1 aSHOWLER, A. T.1 aARAÚJO, A. C. A.1 aALMEIDA, I. S.1 aAGUIAR, R. S. A.1 aMIRANDA, J. E.1 aFERNANDES, F. L.1 aBASTOS, C. S.  tPest Management Sciencegv. 78, n. 3, p. 2492-2501, 2022.