Your search keyword '"Shahabuddin Saleh"' showing total 4 results

1. Applications of Biological Agents and Pruning Effectively Control Cocoa Pod Borer

Author

Mahfudz, Nur Edy, Shahabuddin Saleh, Muhammad Basir-Cyio, Uswah Hasanah, Flora Pasaru, and Alam Anshary

Subjects

0106 biological sciences, 010602 entomology, Horticulture, Point of delivery, Soil Science, Pruning (decision trees), Biology, 01 natural sciences, Agronomy and Crop Science, 010606 plant biology & botany

Published

2017

2. Habitat management on multiple spatial scales can enhance bee pollination and crop yield in tropical homegardens

Author

Teja Tscharntke, Alexandra-Maria Klein, Iris Motzke, Thomas C. Wanger, and Shahabuddin Saleh

Subjects

0106 biological sciences, Pollination, Biology, Body size, 010603 evolutionary biology, 01 natural sciences, Pollinator, Abundance (ecology), Net income, 2. Zero hunger, Ecology, Pollinators, Agroforestry, 010604 marine biology & hydrobiology, Crop yield, Food security, 15. Life on land, Attraction, Flower cover, Ecosystems Research, Habitat, Indonesia, Animal Science and Zoology, Cucumis sativus, Scale (map), Agronomy and Crop Science

Abstract

Pollinator populations respond to environmental changes operating on different spatial scales, but the contribution of scale-dependent habitat management to crop pollination and yield-gap reduction is little understood. Here, we analyze how bee abundance and their effects on cucumber production in tropical homegardens is driven by factors measured on three spatial scales; the (1) homegarden scale (flower cover of the focal homegarden); the (2) adjacent-habitat scale (amount of homegarden habitat within a 200 m radius around the focal homegarden); and the (3) landscape scale (distance of the focal homegarden to the nearest forest from 0 to 2200 m). We also evaluate bee responses according to functional traits such as body size. We found that bees were affected by factors on multiple spatial scales. On the homegarden scale, the percentage flower cover best predicted pollinator attraction, if, on the adjacent-habitat scale the percentage of surrounding homegardens was at least 20%. On the landscape scale, bee abundance, mainly of small species, increased when homegardens were closer to the forest. Increasing abundance of flower-visiting bees increased cucumber yield, with solitary bees being the most abundant flower visitors. We predicted that a 50% loss in bee abundance would translate into a 47% yield and associated income decline. Homegardens with a flower cover of 50%, being surrounded by a homegarden area of 50% and being established 1500 m). Our work suggests that farmers need to be aware of management practices not only at the local and landscape scale but also on the adjacent-habitat scale. Only then farmers can increase wild bee populations to reduce crop yield gaps through pollination services.

Published

2016

3. Avian species identity drives predation success in tropical cacao agroforestry

Author

Teja Tscharntke, Bea Maas, Yann Clough, Shahabuddin Saleh, and Dadang Dwi Putra

Subjects

0106 biological sciences, 2. Zero hunger, Herbivore, geography, geography.geographical_feature_category, Ecology, Agroforestry, 010604 marine biology & hydrobiology, Biodiversity, Species diversity, Insectivore, 15. Life on land, Biology, Old-growth forest, 010603 evolutionary biology, 01 natural sciences, Predation, 13. Climate action, Ecosystem, Species richness

Abstract

Avian ecosystem services such as the suppression of pests are considered to be of high ecological and economic importance in a range of ecosystems, especially in tropical agroforestry. However, how bird predation success is related to the diversity and composition of the bird community, as well as local and landscape factors, is poorly understood. We quantified arthropod predation in relation to the identity and diversity of insectivorous birds using experimental exposure of artificial, caterpillar-like prey in 15 smallholder cacao agroforestry systems differing in local shade-tree management and distance to primary forest. The bird community was assessed using both mist-netting (targeting active understorey insectivores) and point counts (higher completeness of species inventories). Bird predation was not related to local shade-tree management or overall bird species diversity, but to the activity of insectivorous bird species and the proximity to primary forest. Insectivore activity was best predicted by mist-netting-based data, not by point counts. We identified the abundant Indonesian endemic lemon-bellied white-eye Zosterops chloris as the main driver of predation on artificial prey.Synthesis and applications. The suppression of arthropods is a major ecosystem service provided by insectivorous birds in agricultural systems world-wide, potentially reducing herbivore damage on plants and increasing yields. Our results show that avian predation success can be driven by single and abundant insectivorous species, rather than by overall bird species richness. Forest proximity was important for enhancing the density of this key species, but did also promote bird species richness. Hence, our findings are both of economical as well as ecological interest because the conservation of nearby forest remnants will likely benefit human needs and biodiversity conservation alike. The suppression of arthropods is a major ecosystem service provided by insectivorous birds in agricultural systems world-wide, potentially reducing herbivore damage on plants and increasing yields. Our results show that avian predation success can be driven by single and abundant insectivorous species, rather than by overall bird species richness. Forest proximity was important for enhancing the density of this key species, but did also promote bird species richness. Hence, our findings are both of economical as well as ecological interest because the conservation of nearby forest remnants will likely benefit human needs and biodiversity conservation alike. (Less)

Published

2015

4. Alpha and beta diversity of plants and animals along a tropical land-use gradient

Author

Ramadhaniel Pitopang, Simone G. Sporn, Ingolf Steffan-Dewenter, Jürgen Kluge, Stefan Abrahamczyk, Christian H. Schulze, S. Robbert Gradstein, Patrick Höhn, Teja Tscharntke, Damayanti Buchori, Michael Kessler, Dadang Dwi Putra, Friederike Orend, Shahabuddin Saleh, Sri S. Tjitrosoedirdjo, and Merijn M. Bos

Subjects

0106 biological sciences, Conservation of Natural Resources, Insecta, Gamma diversity, Biodiversity, Biology, 010603 evolutionary biology, 01 natural sciences, Trees, Birds, Animals, Taxonomic rank, Tropical Climate, Ecology, 010604 marine biology & hydrobiology, Species diversity, Agriculture, 15. Life on land, Plants, Spatial heterogeneity, Indonesia, Indicator species, Alpha diversity, Species richness

Abstract

Assessing the overall biological diversity of tropical rain forests is a seemingly insurmountable task for ecologists. Therefore, researchers frequently sample selected taxa that they believe reflect general biodiversity patterns. Usually, these studies focus on the congruence of alpha diversity (the number of species found per sampling unit) between taxa rather than on beta diversity (turnover of species assemblages between sampling units). Such approaches ignore the potential role of habitat heterogeneity that, depending on the taxonomic group considered, can greatly enhance beta diversity at local and landscape scales. We compared alpha and beta diversity of four plant groups (trees, lianas, terrestrial herbs, epiphytic liverworts) and eight animal groups (birds, butterflies, lower canopy ants, lower canopy beetles, dung beetles, bees, wasps, and the parasitoids of the latter two) at 15 sites in Sulawesi, Indonesia, that represented natural rain forest and three types of cacao agroforests differing in management intensity. In total, we recorded 863 species. Patterns of species richness per study site varied strongly between taxonomic groups. Only 13-17% of the variance in species richness of one taxonomic group could be predicted from the species richness of another, and on average 12-18% of the variance of beta diversity of a given group was predicted by that in other groups, although some taxon pairs had higher values (up to 76% for wasps and their parasitoids). The degree of congruence of patterns of alpha diversity was not influenced by sampling completeness, whereas the indicator value for beta diversity improved when using a similarity index that accounts for incomplete sampling. The indication potential of alpha diversity for beta diversity and vice versa was limited within taxa (7-20%) and virtually nil between them (0-4%). We conclude that different taxa can have largely independent patterns of alpha diversity and that patterns of beta diversity can be more congruent. Thus, conservation plans on a landscape scale need to put more emphasis on the high heterogeneity of agroforests and the overarching role of beta diversity shaping overall diversity patterns.

Published

2009