Questions: What is the optimum combination of image dates across a growing season for tree species differentiation in multi-spectral data and how does species composition affect overstorey canopy density? Location: Monks Wood, Cambridgeshire, eastern England, UK. Methods: Six overstorey tree species were mapped using five Airborne Thematic Mapper images acquired across the 2003 growing season (). After image pre-processing, supervised maximum likelihood classification was performed on the images and on all two-, three-, four-and five-date combinations. Relationships between tree species composition and canopy density were assessed using regression analyses. Results: The image with the greatest tree species discrimination was acquired on 27/10 when the overstorey species were in different stages of leaf tinting and fall. In this image, tree species were mapped with an overall classification accuracy (OCA) of 71% (kappa 0.63). A similar OCA was achieved from the other four images combined (OCA 72%, kappa 0.64). The highest classification accuracy was achieved by combining three images: 17 March, 16 July, 27 October. This achieved an OCA of 84% (kappa 0.79), increasing to 88% (kappa 0.85) after a post-classification clump and sieve procedure. Canopy height and percentage cover of oak explained 72% of variance in canopy density. Conclusions: The ability to discriminate and map temperate deciduous tree species in airborne multispectral imagery is increased using time-series data. An autumn image supplemented with an image from both the green-up and full-leaf phases was optimum. The derived tree species map provides a more powerful ecological tool for determining woodland structural/ compositional relationships than field-based measures.
The effects of habitat gaps on breeding success and parental daily energy expenditure (DEE) were investigated in great tits (Parus major) and blue tits (Cyanistes caeruleus) in urban parkland (Cardiff, UK) compared with birds in deciduous woodland (eastern England, UK). Tree canopy height, the percentage of gap in the canopy and the percentage of oak (in the wood only) within a 30 m radius of nest boxes were obtained from airborne remote-sensed data. Breeding success was monitored and parental DEE (great tits: both habitats; blue tits: park only) was measured using doubly labelled water in birds feeding young. In the park, mean (± SD) tree height (7.5 ± 4.7 m) was less than in the wood (10.6 ± 4.5 m), but the incidence of gaps (32.7 ± 22.6%) was greater (9.2 ± 14.7%). Great tits and blue tits both reared fewer young in the park and chick body mass was also reduced in park-reared great tits. Park great tits had a higher DEE (86.3 ± 12.3 kJ day -1 ) than those in the wood (78.0 ± 11.7 kJ day -1 ) and, because of smaller brood sizes, worked about 64% harder for each chick reared. Tits in the park with more than about 35% gap around their boxes had higher DEEs than the average for the habitat. In the wood, great tits with less oak around their boxes worked harder than average. Thus structural gaps, and functional gaps generated by variation in the quality of foraging habitat, increased the costs of rearing young.Keywords airborne LiDAR · ATM multi-spectral · blue tit · energy expenditure · great tit · habitat quality · habitat structure · parkland · reproductive success · urban birds
Parathyroid hormone (PTH) and parathyroid hormone-related peptide (PTHrP) bind to a common PTH/PTHrP receptor. To explore structure-function relations in these ligands, we synthesized and functionally evaluated PTH-PTHrP hybrid peptides in which the homologous 1-14 portions were exchanged. Hybrid-2, PTH-(1-14)-PTHrP-(15-34)NH2, bound to LLC-PK1 cells expressing the cloned rat PTH/PTHrP receptor with high affinity (IC50 approximately equal to 7 nM). In contrast, hybrid-1, PTHrP-(1-14)-PTH-(15-34)NH2, bound with much weaker affinity (IC50 approximately equal to 8,700 nM). Thus, the 1-14 region of PTHrP is incompatible with the 15-34 region of PTH. The carboxyl-terminal incompatibility site was identified as residues 19-21 (Glu-Arg-Val in PTH and Arg-Arg-Arg in PTHrP); extending the amino-terminal PTHrP sequence to residue 21 but not to 18 cured the hybrid's binding defect. The amino-terminal incompatibility site was identified as position 5 (Ile in PTH and His in PTHrP), because Ile5-hybrid-1 bound with high affinity (IC50 approximately equal to 20 nM). The importance of these identified residues in the native ligands was established by evaluating the effects of substitutions at these sites in a series of PTH and PTHrP analog peptides. Overall, the results are consistent with the hypothesis that, in both PTH and PTHrP, the 1-14 and 15-34 domains interact when binding to the receptor and that residues 5, 19, and 21 contribute either directly or indirectly to this interaction.
Previous deletion studies established that the 25-34 region of PTH is important for receptor binding. We used oligonucleotide-directed mutagenesis to generate 47 different mutations in this region of human (h) PTH-(1-84) and evaluated cAMP-stimulating activity in ROS 17/2.8 cells. The hydrophobic residues Leu24 and Leu28 stood out as mutationally intolerant sites, while neighboring polar residues were comparatively tolerant. A series of synthetic PTH analogs was designed to test these residues further. The affinity of [Tyr34]hPTH-(1-34)NH2 for ROS 17/2.8 cells [dissociation constant (Kd), approximately 5 nM)] was dramatically reduced by the substitution of either Leu24 or Leu28 with Glu (Kd, approximately 20,000 and 8,000 nM, respectively). The Val31-->Glu substitution also sharply reduced affinity (Kd, approximately 200 nM). In contrast, the nearby charge-reversing change of Asp30-->Lys had no effect on binding affinity (Kd, approximately 5 nM). Similar effects were observed in the opposum kidney cell line. The binding of [Tyr34]hPTH-(15-34)NH2 to ROS 17/2.8 and opposum kidney cells (Kd, approximately 10 microM) was abolished by Glu substitutions at position 24, 28, or 31; the Lys30 change was without effect. These results suggest that the adverse effects of the Glu substitutions on receptor binding are not due purely to the disruption of tertiary interactions with the 1-14 region. Circular dichroism spectroscopy indicated that the substitutions do not affect local helical structure. The data suggest that Leu24, Leu28, and Val31 contribute important receptor-binding interactions and are consistent with the hypothesis that an amphipathic alpha-helix in the carboxy-terminal region of PTH-(1-34) is involved in receptor binding.
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