Your search keyword '"Ben J. Koks"' showing total 10 results

1. Collision risk of Montagu's Harriers Circus pygargus with wind turbines derived from high-resolution GPS tracking

Author

Willem Bouten, Ben J. Koks, Tonio Schaub, Raymond H. G. Klaassen, Almut E. Schlaich, Both group, and Theoretical and Computational Ecology (IBED, FNWI)

Subjects

0106 biological sciences, Meteorology, WHITE-TAILED EAGLES, avoidance rate, raptors, 010603 evolutionary biology, 01 natural sciences, Turbine, environmental impact, 010605 ornithology, BIRD MORTALITY, mitigation, Circus pygargus, FARMS, ddc:570, Range (aeronautics), wind energy, Institut für Biochemie und Biologie, Ecology, Evolution, Behavior and Systematics, Wind power, human–wildlife conflict, biology, business.industry, Population size, SCHEME, Repowering, biology.organism_classification, renewable energy, Renewable energy, FATALITIES, AVOIDANCE RATES, NORWAY, Global Positioning System, Environmental science, Animal Science and Zoology, flight height, business, FLIGHT HEIGHTS, BEHAVIOR, RESPONSES

Abstract

Flight behaviour characteristics such as flight altitude and avoidance behaviour determine the species‐specific collision risk of birds with wind turbines. However, traditional observational methods exhibit limited positional accuracy. High‐resolution GPS telemetry represents a promising method to overcome this drawback. In this study, we used three‐dimensional GPS tracking data including high‐accuracy tracks recorded at 3‐s intervals to investigate the collision risk of breeding male Montagu's Harriers Circus pygargus in the Dutch–German border region. Avoidance of wind turbines was quantified by a novel approach comparing observed flights to a null model of random flight behaviour. On average, Montagu's Harriers spent as much as 8.2 h per day in flight. Most flights were at low altitude, with only 7.1% within the average rotor height range (RHR; 45–125 m). Montagu's Harriers showed significant avoidance behaviour, approaching turbines less often than expected, particularly when flying within the RHR (avoidance rate of 93.5%). For the present state, with wind farms situated on the fringes of the regional nesting range, collision risk models based on our new insights on flight behaviour indicated 0.6–2.0 yearly collisions of adult males (as compared with a population size of c. 40 pairs). However, the erection of a new wind farm inside the core breeding area could markedly increase mortality (up to 9.7 yearly collisions). If repowering of the wind farms was carried out using low‐reaching modern turbines (RHR 36–150 m), mortality would more than double, whereas it would stay approximately constant if higher turbines (RHR 86–200 m) were used. Our study demonstrates the great potential of high‐resolution GPS tracking for collision risk assessments. The resulting information on collision‐related flight behaviour allows for performing detailed scenario analyses on wind farm siting and turbine design, in contrast to current environmental assessment practices. With regard to Montagu's Harriers, we conclude that although the deployment of higher wind turbines represents an opportunity to reduce collision risk for this species, precluding wind energy developments in core breeding areas remains the most important mitigation measure.

Published

2019

2. Rare case of an adult male Montagu's Harrier Circus pygargus over-summering in West Africa, as revealed by GPS tracking

Author

Almut E. Schlaich, Raymond H. G. Klaassen, Iben H. Sørensen, Ben J. Koks, Henning Heldbjerg, and Both group

Subjects

0106 biological sciences, Adult male, Range (biology), Behavioural ecology, 010603 evolutionary biology, 01 natural sciences, Normalized Difference Vegetation Index, 010605 ornithology, West africa, Circus pygargus, AREAS, Seasonal breeder, biology, BIRDS, business.industry, Ecology, Harrier, Remote sensing, biology.organism_classification, SATELLITE TELEMETRY, GPS tracking, Over-summering, Geography, Global Positioning System, AUTUMN MIGRATION, Raptor migration patterns, SCALES, business

Abstract

Over-summering within or near the African wintering range by immature, non-breeding individuals occurs regularly in several species of long-distance migratory raptors, yet the extent of over-summering in Africa by adult birds remains unclear. In this study, we describe a case of an adult Montagu's Harrier over-summering in Africa, as revealed by GPS tracking. By relating detailed knowledge of the bird's movements to remotely sensed environmental data (normalized difference vegetation index, NDVI), we show that over-summering in this case was likely related to an exceptionally difficult breeding season the previous year rather than an effect of adverse weather conditions encountered during the winter or a failed attempt to migrate. Various factors are discussed as potential driving forces behind the bird's intra-African movements. Finally, we relate the documented case to a large number of North European Montagu's Harriers studied by telemetry and show that over-summering in Africa by adult individuals is indeed a rare event.

Published

2017

3. Migrating Montagu's harriers frequently interrupt daily flights in both Europe and Africa

Author

Ben J. Koks, Raymond H. G. Klaassen, Willem Bouten, Almut E. Schlaich, Both group, and Theoretical and Computational Ecology (IBED, FNWI)

Subjects

0106 biological sciences, STRATEGIES, biology, CIRCUS-PYGARGUS, Foraging, Bird migration, AUTUMN, Sunset, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, BIRD MIGRATION, DIET, 010605 ornithology, Fishery, EAGLES, Circus pygargus, Time windows, Animal Science and Zoology, Tracking data, SCALES, SPEED, Ecology, Evolution, Behavior and Systematics

Abstract

Time budgets are a powerful but hitherto seldom used way to study how migrants organise their bi‐annual travels. We studied daily time budgets of travelling Montagu's harriers Circus pygargus, based on GPS tracking data, in which we were particularly interested in how time budgets differ between regions and seasons, and are affected by wind. We found that Montagu's harriers used a relatively broad daily time window for travelling by starting daily travels just after sunrise and ending daily travels just before sunset. Occasionally, flights were extended into the night. Montagu's harriers frequently interrupted their daily flights for on average 1.5 h d–1. These interruptions occurred in all regions and seasons. The tracking data during interruptions suggested two different behaviours: in 41% of all interruptions the birds were moving (presumed foraging,) and in 32% they were stationary (presumed resting; the remaining interruptions could not be classified). The interruptions for foraging indicate that Montagu's harriers have a fly‐and‐forage migration strategy (i.e. combine travelling and foraging on the same day), but the interruptions for resting illustrate that their travels comprise of more than fly‐and‐forage behaviour alone. The large number of interruptions for foraging in the Sahara Desert indicates that this region is less hostile for a migrating raptor than presumed previously. Importantly, harriers spent more time on interruptions for resting on days with stronger headwinds, suggesting that interruptions for resting serve a function of waiting for more favourable weather conditions. Daily variation in time budgets was largely explained by wind; harriers flew more hours per day, and interrupted their flights fewer hours per day, on days they experienced stronger tailwinds. In contrast, time budgets were similar between regions and seasons, suggesting that wind rather than landscape and season shape travel routines of Montagu's harriers.

Published

2017

4. How individual Montagu's Harriers cope with Moreau's Paradox during the Sahelian winter

Author

Christiaan Both, Raymond H. G. Klaassen, Willem Bouten, Vincent Bretagnolle, Almut E. Schlaich, Alexandre Villers, Ben J. Koks, Centre d'Études Biologiques de Chizé - UMR 7372 (CEBC), Institut National de la Recherche Agronomique (INRA)-Université de La Rochelle (ULR)-Centre National de la Recherche Scientifique (CNRS), Dutch Montagu’s Harrier Foundation, Groningen Institute for Evolutionary Life Sciences, Institute for Biodiversity and Ecosystem Dynamics, University of Amsterdam [Amsterdam] (UvA), Both group, Université de La Rochelle (ULR)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), IBED Other Research (FNWI), Faculty of Science, and Computational Geo-Ecology (IBED, FNWI)

Subjects

Male, 0106 biological sciences, sub-Saharan Africa, 01 natural sciences, RELATIVE IMPORTANCE, 010605 ornithology, Predation, Sahel, Seasonal breeder, HABITAT, Overwintering, media_common, PALEARCTIC MIGRANTS, biology, Ecology, Annual cycle, Senegal, long-distant migrant, Geography, Habitat, Desertification, MIGRATORY BIRDS, PASSAGE AREAS, [SDE]Environmental Sciences, ECOLOGICAL CONDITIONS, Female, Seasons, AFRICA, Food Chain, GPS-tracking, Climate Change, media_common.quotation_subject, Foraging, Grasshoppers, 010603 evolutionary biology, acridivorous birds, CENTRAL SENEGAL, Circus pygargus, West Africa, Animals, deterioration, Ecosystem, Falconiformes, Ecology, Evolution, Behavior and Systematics, 15. Life on land, biology.organism_classification, FLYCATCHERS FICEDULA-HYPOLEUCA, Geographic Information Systems, Animal Migration, Animal Science and Zoology, ARRIVAL DATE

Abstract

1. Hundreds of millions of Afro‐Palaearctic migrants winter in the Sahel, a semi‐arid belt south of the Sahara desert, where they experience deteriorating ecological conditions during their overwintering stay and have to prepare for spring migration when conditions are worst. This well‐known phenomenon was first described by R.E. Moreau and is known ever since as Moreau's Paradox. However, empirical evidence of the deteriorating seasonal ecological conditions is limited and little is known on how birds respond.2. Montagu's Harriers Circus pygargus spend 6 months of the year in their wintering areas in the Sahel. Within the wintering season, birds move gradually to the south, visiting several distinct sites to which they are site‐faithful in consecutive years. At the last wintering site, birds find themselves at the southern edge of the Sahelian zone and have no other options than facing deteriorating conditions.3. We tracked 36 Montagu's Harriers with GPS trackers to study their habitat use and behaviour during winter and collected data on the abundance of their main prey, grasshoppers, in Senegal. Since grasshopper abundance was positively related to vegetation greenness (measured as normalized difference vegetation index, NDVI), we used NDVI values as a proxy for prey abundance in areas where no field data were collected. Prey abundance (grasshopper counts and vegetation greenness) at wintering sites of Montagu's Harriers decreased during the wintering period.4. Montagu's Harriers responded to decreasing food availability by increasing their flight time during the second half of the winter. Individuals increased flight time more in areas with stronger declines in NDVI values, suggesting that lower food abundance required more intense foraging to achieve energy requirements. The apparent consequence was that Montagu's Harriers departed later in spring when their final wintering site had lower NDVI values and presumably lower food abundance and consequently arrived later at their breeding site.5. Our results confirmed the suggestions Moreau made 40 years ago: the late wintering period might be a bottleneck during the annual cycle with possible carry‐over effects to the breeding season. Ongoing climate change with less rainfall in the Sahel region paired with increased human pressure on natural and agricultural habitats resulting in degradation and desertification is likely to make this period more demanding, which may negatively impact populations of migratory birds using the Sahel.

Published

2016

5. Increased Food Provisioning by Female Montagu's Harriers in Years with Food Shortage Weakens Sex-Specific Roles in Parental Care

Author

Ben J. Koks, Raymond H. G. Klaassen, Angela Wieringa, and Almut E. Schlaich

Subjects

Sexual conflict, biology, Circus pygargus, Nest, Foraging, Harrier, Animal Science and Zoology, Parent–offspring conflict, biology.organism_classification, Parental investment, Paternal care, Ecology, Evolution, Behavior and Systematics, Demography

Abstract

In many owl and raptor species, sexes have distinct parental roles. Females incubate the eggs and raise the chicks until independence, while males provide females and their chicks with food. This is believed to reduce sexual conflict over parental care as tasks do not overlap. The level of parental care is also shaped by parent-offspring conflict. The scarcity of empirical data on parental investment in species with sex-specific parental roles was our motivation to study parental care in the Montagu's Harrier Circus pygargus in relation to natural annual variation in food availability (vole abundance). By tracking individual birds using GPS-trackers, several aspects of parental care (the number of food provisioning trips, home range size and nest attendance) could be quantified for different nesting phases. We found that in food-poor years, males spent less time near the nest, and had lower food provisioning rates during the incubation and nestling phases. In addition, males had larger home ranges in food-poor years, a possible indicator of increased foraging effort. In contrast, females increased their contribution to food provisioning in food-poor years, as shown by higher food provisioning rates and larger home ranges. This increased foraging effort came at the cost of lower nest attendance by females. Our data suggest that, when food abundance declines, Montagu's Harriers shift from a system with almost strict sex-specific parental roles towards a system where both parents provide the same type of care with possibly increased sexual conflict.

Published

2019

6. Satellite tracking of two Montagu’s Harriers (Circus pygargus): dual pathways during autumn migration

Author

Cornelis Dijkstra, Ben J. Koks, Klaus-Michael Exo, Christiane Trierweiler, Rudi H. Drent, Jan Komdeur, Franz Bairlein, Komdeur lab, and Dijkstra lab

Subjects

AFRICA, biology, Satellite telemetry, Satellite tracking, biology.organism_classification, OSPREYS PANDION-HALIAETUS, Geography, Oceanography, Circus pygargus, connectivity, Telemetry, ROUTES, Animal Science and Zoology, migration and food supply, TELEMETRY

Abstract

Autumn migration routes of two Dutch female Montagu’s Harriers (Circus pygargus) were documented for the first time using satellite telemetry. Both migrated to their African wintering area—one via the Straits of Gibraltar through the Mediterranean and the other via Italy/Tunisia. The rate of travel was comparable to values reported for larger raptor species.

Published

2007

7. Do voles make agricultural habitat attractive to Montagu's Harrier Circus pygargus?

Author

Erik G. Visser, Jan Komdeur, Ben J. Koks, Cornelis Dijkstra, and Christiane Trierweiler

Subjects

Avian clutch size, Habitat, biology, Circus pygargus, Abundance (ecology), Ecology, Accipitridae, Animal Science and Zoology, Vole, biology.organism_classification, Microtus, Ecology, Evolution, Behavior and Systematics, Predation

Abstract

Loss and degradation of habitat threatens many bird populations. Recent rural land-use changes in the Netherlands have led to a shift in habitat use by breeding Montagu’s Harriers Circus pygargus . Since the 1990s, unprecedented numbers of this species have bred in farmland compared with numbers in natural habitat. Destruction of nests by agricultural operations, however, compromises breeding success. Between 1992 and 2005, the number of breeding pairs in the northeastern Netherlands was positively, though weakly, correlated with previous-year estimated abundance of voles, mostly Microtus arvalis . In good vole years, the onset of laying was earlier and mean clutch size was larger. Vole abundance was relatively higher in set-aside land and in high and dense vegetation. We suggest that agri-environmental schemes aimed at increasing the availability of voles in agricultural breeding areas may be an effective management tool for the conservation of Montagu’s Harriers in the northeastern Netherlands.

Published

2007

8. Testing a novel agri-environment scheme based on the ecology of the target species, Montagu's Harrier Circus pygargus

Author

Christiaan Both, Raymond H. G. Klaassen, Ben J. Koks, Willem Bouten, Almut E. Schlaich, Computational Geo-Ecology (IBED, FNWI), and Both group

Subjects

GPS-tracking, Foraging, Biodiversity, Predation, Circus pygargus, Abundance (ecology), MANAGEMENT, STEWARDSHIP SCHEME, Ecology, Evolution, Behavior and Systematics, agri-environment schemes, biology, Ecology, Harrier, conservation, FORAGING HABITAT, biology.organism_classification, Habitat, POPULATIONS, Animal Science and Zoology, Vole, FARMLAND BIRDS, FIELD MARGINS, BIODIVERSITY, LANDSCAPES, AGRICULTURAL INTENSIFICATION, Common Vole, RESPONSES

Abstract

Farmland birds are in steep decline and agri-environment schemes (AES) to counteract these biodiversity losses are expensive and inefficient. Here we test a novel AES, Birdfields', designed using detailed ecological knowledge of the target species, Montagu's Harrier Circus pygargus. Current AES, such as field margins, that aim to improve foraging conditions (i.e. vole densities) for harriers are inefficient, as prey are difficult to capture in tall set-aside habitat. Birdfields' combines strips of set-aside to boost vole numbers and strips of alfalfa, as voles are accessible after alfalfa has been harvested. We found that vole numbers were generally highest in set-aside. Montagu's Harriers fitted with GPS-loggers used Birdfields' intensively after mowing, preferring mown to unmown strips. Thus, prey availability appeared more important than prey abundance. Thus, Birdfields', as a targeted AES for Montagu's Harriers, is more effective than previous AES due to increased prey accessibility. An additional advantage of Birdfields' is that it is considerably cheaper, due to the harvest of alfalfa. We advocate that AES should always include monitoring and research activities, aiming at a more adaptive conservation approach.

Published

2015

9. Migratory connectivity and population-specific migration routes in a long-distance migratory bird

Author

Rudi H. Drent, Raymond H. G. Klaassen, Jan Komdeur, Franz Bairlein, Christiane Trierweiler, Ben J. Koks, Klaus Michael Exo, Both group, and Komdeur lab

Subjects

Conservation of Natural Resources, Population Dynamics, Satellite tracking, General Biochemistry, Genetics and Molecular Biology, bird migration strategies, Sexual Behavior, Animal, Circus pygargus, Population specific, migration speed, Animals, Falconiformes, Research Articles, General Environmental Science, spatial scale, Geography, General Immunology and Microbiology, biology, Ecology, Satellite telemetry, satellite tracking, Harrier, conservation, General Medicine, biology.organism_classification, Annual cycle, Habitat, Spatial ecology, Animal Migration, Seasons, General Agricultural and Biological Sciences, raptor bird

Abstract

Knowledge about migratory connectivity, the degree to which individuals from the same breeding site migrate to the same wintering site, is essential to understand processes affecting populations of migrants throughout the annual cycle. Here, we study the migration system of a long-distance migratory bird, the Montagu's harrier Circus pygargus , by tracking individuals from different breeding populations throughout northern Europe. We identified three main migration routes towards wintering areas in sub-Saharan Africa. Wintering areas and migration routes of different breeding populations overlapped, a pattern best described by ‘weak (diffuse) connectivity’. Migratory performance, i.e. timing, duration, distance and speed of migration, was surprisingly similar for the three routes despite differences in habitat characteristics. This study provides, to our knowledge, a first comprehensive overview of the migration system of a Palaearctic-African long-distance migrant. We emphasize the importance of spatial scale (e.g. distances between breeding populations) in defining patterns of connectivity and suggest that knowledge about fundamental aspects determining distribution patterns, such as the among-individual variation in mean migration directions, is required to ultimately understand migratory connectivity. Furthermore, we stress that for conservation purposes it is pivotal to consider wintering areas as well as migration routes and in particular stopover sites.

Published

2014

10. A Palaearctic migratory raptor species tracks shifting prey availability within its wintering range in the Sahel

Author

Klaus-Michael Exo, Abdoulaye Harouna, Christiane Trierweiler, Ben J. Koks, Wim C. Mullie, Rudi H. Drent, Franz Bairlein, Marinus de Bakker, Jan Komdeur, and Komdeur lab

Subjects

Male, Insecta, Home range, GRASSHOPPER OEDALEUS-SENEGALENSIS, CIRCUS-PYGARGUS, CICONIA-CICONIA, Animal Identification Systems, ORTHOPTERA-ACRIDIDAE, Predation, acridivorous birds, Circus pygargus, satellite telemetry, Seasonal breeder, annual cycle, Animals, Spacecraft, Grasshopper, Ecology, Evolution, Behavior and Systematics, WEST-AFRICA, Demography, MONTAGUS HARRIER, biology, Raptors, Ecology, Harrier, kernel home range, Insectivore, biology.organism_classification, WARBLER SYLVIA-BORIN, SWAINSONS HAWKS, PROTECTED AREAS, Geography, Habitat, SATELLITE TRACKING, Animal Science and Zoology, Animal Migration, Female, Seasons, Ornithacris cavroisi

Abstract

Summary 1. Mid-winter movements of up to several hundreds of kilometres are typical for many migratory bird species wintering in Africa. Unpredictable temporary food concentrations are thought to result in random movements of such birds, whereas resightings and recoveries of marked birds suggest some degree of site fidelity. Only detailed (e.g. satellite) tracking of individual migrants can reveal the relative importance and the causes of site choice flexibility and fidelity. The present study investigates how mid-winter movements of a Palaearctic-African migratory raptor, Montagu’s harrier Circus pygargus, in the Sahel of West Africa are related to the availability of food resources. 2. Thirty harriers breeding or hatched in northern Europe were satellite tracked (2005–2009). On average, four home ranges, each separated by c. 200 km, were visited during one overwinter stay in the Sahel. Wintering home ranges were similar in size to breeding season home ranges (average over wintering and breeding home range size c. 200 km 2 ), and harriers showed high site fidelity between years. 3. Most preferred habitat types in the Sahel were mosaics of grass- and cropland, indicating similar habitat preferences in both the breeding- and wintering seasons. 4. The main prey of Montagu’s harriers in the Sahel were grasshoppers Acrididae. Highest grasshopper numbers in the field occurred at relatively low vegetation greenness [normalized difference vegetation index (NDVI) values 017–027]. We used NDVI as a proxy of food availability for harriers. 5. During their overwinter stay, Montagu’s harriers moved in a South–South-western direction between consecutive home ranges. The birds selected areas within the range of NDVI values associated with high grasshopper numbers, thus tracking a ‘green belt’ of predictable changes in highest grasshopper availability. 6. Contrary to earlier hypotheses of random movements in the Sahelian-wintering quarters, the present study shows that Montagu’s harriers visited distinct home ranges, they were sitefaithful and tracked seasonal changes in food availability related to previous rainfall patterns, caused by the shifting Intertropical Convergence Zone. Itinerancy may be the rule rather than an exception among insectivorous birds wintering in African savannahs.

Published

2011