# | Title | Journal | Year | Citations |
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1 | The useful plants of Tambopata, Peru: I. Statistical hypotheses tests with a new quantitative technique | Economic Botany | 1993 | 632 |
2 | Races of common bean (Phaseolus vulgaris, Fabaceae) | Economic Botany | 1991 | 593 |
3 | Cultural Importance Indices: A Comparative Analysis Based on the Useful Wild Plants of Southern Cantabria (Northern Spain)1 | Economic Botany | 2008 | 567 |
4 | Phaseolin-protein Variability in Wild Forms and Landraces of the Common Bean(Phaseolus vulgaris): Evidence for Multiple Centers of Domestication | Economic Botany | 1986 | 449 |
5 | On the domestication of the soybean | Economic Botany | 1970 | 371 |
6 | Introduced plants in the indigenous Pharmacopoeia of Northern South America | Economic Botany | 2000 | 366 |
7 | 1492 and the loss of amazonian crop genetic resources. I. The relation between domestication and human population decline | Economic Botany | 1999 | 363 |
8 | Crop mimicry in weeds | Economic Botany | 1983 | 359 |
9 | The useful plants of Tambopata, Peru: II. Additional hypothesis testing in quantitative ethnobotany | Economic Botany | 1993 | 359 |
10 | Drumstick (Moringa oleifera): A multipurpose Indian vegetable | Economic Botany | 1980 | 335 |
11 | In situ conservation of crop genetic resources through maintenance of traditional farming systems | Economic Botany | 1987 | 318 |
12 | The horseradish tree,Moringa pterygosperma (Moringaceae)—A boon to Arid Lands? | Economic Botany | 1991 | 295 |
13 | Weeds and Domesticates: Evolution in the man-made habitat | Economic Botany | 1975 | 293 |
14 | Unconscious Selection and the Evolution of Domesticated Plants | Economic Botany | 2004 | 285 |
15 | Azolla: Botany, physiology, and use as a green manure | Economic Botany | 1980 | 283 |
16 | An archaeological and historical account of cannabis in China | Economic Botany | 1973 | 256 |
17 | Toxicity of cycads | Economic Botany | 1963 | 253 |
18 | In Situ conservation of maize in Mexico: Genetic diversity and Maize seed management in a traditional community | Economic Botany | 1997 | 247 |
19 | Methods to assess the impact of extraction of non-timber tropical forest products on plant populations | Economic Botany | 1993 | 238 |
20 | The dynamics of crop infraspecific diversity: A conceptual framework at the farmer level 1 | Economic Botany | 1996 | 238 |
21 | Founder effect in crop-plant evolution | Economic Botany | 1985 | 228 |
22 | Molecular Evidence and the Evolution of Maize | Economic Botany | 1990 | 227 |
23 | Analyses of seed samples from 113 plant families | Economic Botany | 1962 | 214 |
24 | Evidence for cultivation of sesame in the ancient world | Economic Botany | 1986 | 204 |
25 | Losing knowledge about plant use in the sierra de manantlan biosphere reserve, Mexico | Economic Botany | 2000 | 203 |
26 | Herbal remedies of the Luo of Siaya District, Kenya: Establishing quantitative criteria for consensus | Economic Botany | 1990 | 202 |
27 | Use of ecological methods in ethnobotany: Diversity indices | Economic Botany | 1996 | 200 |
28 | The value of undiscovered pharmaceuticals in tropical forests | Economic Botany | 1995 | 197 |
29 | A Potential Antioxidant Resource: Endophytic Fungi from Medicinal Plants | Economic Botany | 2007 | 196 |
30 | Dynamics of Andean potato agriculture | Economic Botany | 1981 | 193 |
31 | Ethnobotany of caiçaras of the Atlantic Forest coast (Brazil) | Economic Botany | 1999 | 191 |
32 | Traditional medicine in Turkey VII. Folk medicine in middle and west Black Sea regions | Economic Botany | 1995 | 187 |
33 | Forgetting the Forest: Assessing Medicinal Plant Erosion in Eastern Brazil | Economic Botany | 2004 | 186 |
34 | Cultural Transmission of Ethnobotanical Knowledge in a Rural Community of Northwestern Patagonia, Argentina | Economic Botany | 2006 | 185 |
35 | Genetic diversity in major farm crops on the farm and in reserve | Economic Botany | 1984 | 184 |
36 | Arundo donax—Source of musical reeds and industrial cellulose | Economic Botany | 1958 | 179 |
37 | The domestication ofcucurbita (Cucurbitaceae) | Economic Botany | 1990 | 179 |
38 | The prickly-pears (Opuntia spp., Cactaceae): A source of human and animal food in semiarid regions | Economic Botany | 1987 | 174 |
39 | Utilization of mangrove wood products around mida creek (Kenya) amongst subsistence and commercial users | Economic Botany | 2000 | 173 |
40 | Hybridization of maize and teosinte, in mexico and guatemala and the improvement of maize | Economic Botany | 1977 | 172 |
41 | A Farmer-based approach to conserving crop germplasm | Economic Botany | 1991 | 172 |
42 | Origin of the common bean,Phaseolus vulgaris | Economic Botany | 1969 | 169 |
43 | Review of chemical constituents of the red algaPalmaria palmata (dulse) | Economic Botany | 1980 | 169 |
44 | Traditional medicine in Turkey VIII. Folk medicine in east anatolia; Erzurum, Erzíncan, Ağri, Kars, Iğdir provinces | Economic Botany | 1997 | 169 |
45 | The economic value and sustainable harvest of plants and animals from the tropical forest: Assumptions, hypotheses, and methods | Economic Botany | 1993 | 168 |
46 | COVER ARTICLE: Archaeological Evidence for the Tradition of Psychoactive Plant Use in the Old World | Economic Botany | 2003 | 167 |
47 | An ethnobotanical study in Central Anatolia (Turkey) | Economic Botany | 2000 | 165 |
48 | Yartsa Gunbu (Cordyceps sinensis) and the Fungal Commodification of Tibet’s Rural Economy | Economic Botany | 2008 | 164 |
49 | Phaseolin variability among wild and cultivated common beans (Phaseolus vulgaris) from Colombia | Economic Botany | 1986 | 163 |
50 | The origin of the cultivated tomato | Economic Botany | 1948 | 162 |