None Jan Perret scite author profile

The estimation of population size and its variation across space and time largely relies on counts of individuals, generally carried out within spatial units such as quadrats or sites. Missing individuals during counting (i.e. imperfect detection) results in biased estimates of population size and trends. Imperfect detection has been shown to be the rule in animal studies, and most studies now correct for this bias by estimating detection probability. Yet this correction remains exceptional in plant studies, suggesting that most plant ecologists implicitly assume that all individuals are always detected. To assess if this assumption is valid, we conducted a field experiment to estimate individual detection probability in plant counts conducted in 1 × 1 m quadrats. We selected 30 herbaceous plant species along a gradient of conspicuousness at 24 sites along a gradient of habitat closure, and asked groups of observers to count individuals in 10 quadrats using three counting methods requiring progressively increasing times to complete (quick count, unlimited count and cell count). In total, 158 participants took part in the experiment, allowing an analysis of the results of 5024 counts. Over all field sessions, no observer succeeded in detecting all the individuals in the 10 quadrats. The mean detection rate was 0.44 (ranging from 0.11 to 0.82) for the quick count, 0.59 for the unlimited count (range 0.18–0.87) and 0.74 for the cell count (range 0.46–0.94). Detection probability increased with the conspicuousness of the target species and decreased with the density of individuals and habitat closure. The observer's experience in botany had little effect on detection probability, whereas detection was strongly affected by the time observers spent counting. Yet although the more time‐consuming methods increased detection probability, none achieved perfect detection, nor did they reduce the effect on detection probability of the variables we measured. Synthesis. Our results show that detection is imperfect and highly heterogeneous when counting plants. To avoid biased estimates when assessing the size, temporal or spatial trends of plant populations, plant ecologists should use methods that estimate the detection probability of individuals rather than relying on raw counts.

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Spatially balanced sampling methods are always more precise than random ones for estimating the size of aggregated populations

Perret

Charpentier

Pradel

et al. 2022

Methods Ecol Evol

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Plants stand still but hide: imperfect and heterogeneous detection is the rule when counting plants

Perret

Besnard

Charpentier

et al. 2022

Preprint

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1. The estimation of population size and its variation largely relies on counts of individuals, generally carried out within spatial units such as quadrats or sites. Missing individuals during counting (i.e. imperfect detection) results in biased estimates of population size and trends. Imperfect detection has been shown to be the rule in animal studies, and most studies now correct for this bias by estimating detection probability. Yet this correction remains exceptional in plant studies, suggesting that most plant ecologists implicitly assume that all individuals are always detected. 2. To assess if this assumption is valid, we conducted a field experiment to estimate individual detection probability in plant counts conducted in 1x1 m quadrats. We selected 30 herbaceous plant species along a gradient of conspicuousness at 24 sites along a gradient of habitat closure, and asked groups of observers to count individuals in 10 quadrats using three counting methods requiring progressively increasing times to complete (quick count, unlimited count and cell count). In total, 158 participants took part in the experiment, allowing an analysis of the results of 5,024 counts. 3. Over all field sessions, no observer succeeded in detecting all the individuals in the 10 quadrats. The mean detection rate was 0.44 (ranging from 0.11 to 0.82) for the quick count, 0.59 for the unlimited count (range 0.18–0.87) and 0.74 for the cell count (range 0.46–0.94). 4. Detection probability increased with the conspicuousness of the target species and decreased with the density of individuals and habitat closure. The observer′s experience in botany had little effect on detection probability, whereas detection was strongly affected by the time observers spent counting. Yet although the more time–consuming methods increased detection probability, none achieved perfect detection, nor did they reduce the effect on detection probability of the variables we measured. 5. Synthesis and applications. Given that plant detection was always imperfect and highly heterogeneous, rather than rely on raw counts, plant ecologists should use methods that estimate the detection probability of individuals to assess the size, temporal or spatial trends of plant populations.

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Author response for "Spatially balanced sampling methods are always more precise than random ones for estimating the size of aggregated populations"

Perret¹,

Charpentier²,

Pradel³

et al. 2022

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Author response for "Plants stand still but hide: Imperfect and heterogeneous detection is the rule when counting plants"

Perret¹,

Besnard²,

Charpentier³

et al. 2023

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None Jan Perret

Plants stand still but hide: Imperfect and heterogeneous detection is the rule when counting plants

Spatially balanced sampling methods are always more precise than random ones for estimating the size of aggregated populations

Plants stand still but hide: imperfect and heterogeneous detection is the rule when counting plants

Author response for "Spatially balanced sampling methods are always more precise than random ones for estimating the size of aggregated populations"

Author response for "Plants stand still but hide: Imperfect and heterogeneous detection is the rule when counting plants"

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